//! Here we test our MachO linker for correctness and functionality.

pub fn testAll(b: *Build, build_opts: BuildOptions) *Step {
    const macho_step = b.step("test-macho", "Run MachO tests");

    // https://github.com/ziglang/zig/issues/25323
    if (builtin.os.tag == .freebsd) return macho_step;

    // https://github.com/ziglang/zig/issues/25961
    if (comptime builtin.cpu.arch.endian() == .big) return macho_step;

    const x86_64_target = b.resolveTargetQuery(.{
        .cpu_arch = .x86_64,
        .os_tag = .macos,
    });
    const aarch64_target = b.resolveTargetQuery(.{
        .cpu_arch = .aarch64,
        .os_tag = .macos,
    });

    const default_target = switch (builtin.cpu.arch) {
        .x86_64, .aarch64 => b.resolveTargetQuery(.{
            .os_tag = .macos,
        }),
        else => aarch64_target,
    };

    // Exercise linker with self-hosted backend (no LLVM)
    macho_step.dependOn(testEmptyZig(b, .{ .use_llvm = false, .target = x86_64_target }));
    macho_step.dependOn(testHelloZig(b, .{ .use_llvm = false, .target = x86_64_target }));
    macho_step.dependOn(testLinkingStaticLib(b, .{ .use_llvm = false, .target = x86_64_target }));
    macho_step.dependOn(testReexportsZig(b, .{ .use_llvm = false, .target = x86_64_target }));
    macho_step.dependOn(testRelocatableZig(b, .{ .use_llvm = false, .target = x86_64_target }));
    macho_step.dependOn(testTlsZig(b, .{ .use_llvm = false, .target = x86_64_target }));
    macho_step.dependOn(testUnresolvedError(b, .{ .use_llvm = false, .target = x86_64_target }));

    // Exercise linker with LLVM backend
    macho_step.dependOn(testDeadStrip(b, .{ .target = default_target }));
    macho_step.dependOn(testDuplicateDefinitions(b, .{ .target = default_target }));
    macho_step.dependOn(testEmptyObject(b, .{ .target = default_target }));
    macho_step.dependOn(testEmptyZig(b, .{ .target = default_target }));
    macho_step.dependOn(testEntryPoint(b, .{ .target = default_target }));
    macho_step.dependOn(testHeaderWeakFlags(b, .{ .target = default_target }));
    macho_step.dependOn(testHelloC(b, .{ .target = default_target }));
    macho_step.dependOn(testHelloZig(b, .{ .target = default_target }));
    macho_step.dependOn(testLargeBss(b, .{ .target = default_target }));
    macho_step.dependOn(testLayout(b, .{ .target = default_target }));
    macho_step.dependOn(testLinkingStaticLib(b, .{ .target = default_target }));
    macho_step.dependOn(testLinksection(b, .{ .target = default_target }));
    macho_step.dependOn(testMergeLiteralsX64(b, .{ .target = x86_64_target }));
    macho_step.dependOn(testMergeLiteralsArm64(b, .{ .target = aarch64_target }));
    macho_step.dependOn(testMergeLiteralsArm642(b, .{ .target = aarch64_target }));
    macho_step.dependOn(testMergeLiteralsAlignment(b, .{ .target = aarch64_target }));
    macho_step.dependOn(testMhExecuteHeader(b, .{ .target = default_target }));
    macho_step.dependOn(testNoDeadStrip(b, .{ .target = default_target }));
    macho_step.dependOn(testNoExportsDylib(b, .{ .target = default_target }));
    macho_step.dependOn(testPagezeroSize(b, .{ .target = default_target }));
    macho_step.dependOn(testReexportsZig(b, .{ .target = default_target }));
    macho_step.dependOn(testRelocatable(b, .{ .target = default_target }));
    macho_step.dependOn(testRelocatableZig(b, .{ .target = default_target }));
    macho_step.dependOn(testSectionBoundarySymbols(b, .{ .target = default_target }));
    macho_step.dependOn(testSectionBoundarySymbols2(b, .{ .target = default_target }));
    macho_step.dependOn(testSegmentBoundarySymbols(b, .{ .target = default_target }));
    macho_step.dependOn(testSymbolStabs(b, .{ .target = default_target }));
    macho_step.dependOn(testStackSize(b, .{ .target = default_target }));
    macho_step.dependOn(testTentative(b, .{ .target = default_target }));
    macho_step.dependOn(testThunks(b, .{ .target = aarch64_target }));
    macho_step.dependOn(testTlsLargeTbss(b, .{ .target = default_target }));
    macho_step.dependOn(testTlsZig(b, .{ .target = default_target }));
    macho_step.dependOn(testUndefinedFlag(b, .{ .target = default_target }));
    macho_step.dependOn(testDiscardLocalSymbols(b, .{ .target = default_target }));
    macho_step.dependOn(testUnresolvedError(b, .{ .target = default_target }));
    macho_step.dependOn(testUnresolvedError2(b, .{ .target = default_target }));
    macho_step.dependOn(testUnwindInfo(b, .{ .target = default_target }));
    macho_step.dependOn(testUnwindInfoNoSubsectionsX64(b, .{ .target = x86_64_target }));
    macho_step.dependOn(testUnwindInfoNoSubsectionsArm64(b, .{ .target = aarch64_target }));
    macho_step.dependOn(testWeakBind(b, .{ .target = x86_64_target }));
    macho_step.dependOn(testWeakRef(b, .{ .target = b.resolveTargetQuery(.{
        .cpu_arch = .x86_64,
        .os_tag = .macos,
        .os_version_min = .{ .semver = .{ .major = 10, .minor = 13, .patch = 0 } },
    }) }));

    // Tests requiring symlinks
    if (build_opts.has_symlinks) {
        macho_step.dependOn(testEntryPointArchive(b, .{ .target = default_target }));
        macho_step.dependOn(testEntryPointDylib(b, .{ .target = default_target }));
        macho_step.dependOn(testDylib(b, .{ .target = default_target }));
        macho_step.dependOn(testDylibVersionTbd(b, .{ .target = default_target }));
        macho_step.dependOn(testNeededLibrary(b, .{ .target = default_target }));
        macho_step.dependOn(testSearchStrategy(b, .{ .target = default_target }));
        macho_step.dependOn(testTbdv3(b, .{ .target = default_target }));
        macho_step.dependOn(testTls(b, .{ .target = default_target }));
        macho_step.dependOn(testTlsPointers(b, .{ .target = default_target }));
        macho_step.dependOn(testTwoLevelNamespace(b, .{ .target = default_target }));
        macho_step.dependOn(testWeakLibrary(b, .{ .target = default_target }));

        // Tests requiring presence of macOS SDK in system path
        if (build_opts.has_macos_sdk) {
            macho_step.dependOn(testDeadStripDylibs(b, .{ .target = b.graph.host }));
            macho_step.dependOn(testHeaderpad(b, .{ .target = b.graph.host }));
            macho_step.dependOn(testLinkDirectlyCppTbd(b, .{ .target = b.graph.host }));
            macho_step.dependOn(testMergeLiteralsObjc(b, .{ .target = b.graph.host }));
            macho_step.dependOn(testNeededFramework(b, .{ .target = b.graph.host }));
            macho_step.dependOn(testObjc(b, .{ .target = b.graph.host }));
            macho_step.dependOn(testObjcpp(b, .{ .target = b.graph.host }));
            macho_step.dependOn(testWeakFramework(b, .{ .target = b.graph.host }));
        }
    }

    return macho_step;
}

fn testDeadStrip(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "dead-strip", opts);

    const obj = addObject(b, opts, .{ .name = "a", .cpp_source_bytes =
        \\#include <stdio.h>
        \\int two() { return 2; }
        \\int live_var1 = 1;
        \\int live_var2 = two();
        \\int dead_var1 = 3;
        \\int dead_var2 = 4;
        \\void live_fn1() {}
        \\void live_fn2() { live_fn1(); }
        \\void dead_fn1() {}
        \\void dead_fn2() { dead_fn1(); }
        \\int main() {
        \\  printf("%d %d\n", live_var1, live_var2);
        \\  live_fn2();
        \\}
    });

    {
        const exe = addExecutable(b, opts, .{ .name = "no_dead_strip" });
        exe.root_module.addObject(obj);
        exe.link_gc_sections = false;

        const check = exe.checkObject();
        check.checkInSymtab();
        check.checkContains("live_var1");
        check.checkInSymtab();
        check.checkContains("live_var2");
        check.checkInSymtab();
        check.checkContains("dead_var1");
        check.checkInSymtab();
        check.checkContains("dead_var2");
        check.checkInSymtab();
        check.checkContains("live_fn1");
        check.checkInSymtab();
        check.checkContains("live_fn2");
        check.checkInSymtab();
        check.checkContains("dead_fn1");
        check.checkInSymtab();
        check.checkContains("dead_fn2");
        test_step.dependOn(&check.step);

        const run = addRunArtifact(exe);
        run.expectStdOutEqual("1 2\n");
        test_step.dependOn(&run.step);
    }

    {
        const exe = addExecutable(b, opts, .{ .name = "yes_dead_strip" });
        exe.root_module.addObject(obj);
        exe.link_gc_sections = true;

        const check = exe.checkObject();
        check.checkInSymtab();
        check.checkContains("live_var1");
        check.checkInSymtab();
        check.checkContains("live_var2");
        check.checkInSymtab();
        check.checkNotPresent("dead_var1");
        check.checkInSymtab();
        check.checkNotPresent("dead_var2");
        check.checkInSymtab();
        check.checkContains("live_fn1");
        check.checkInSymtab();
        check.checkContains("live_fn2");
        check.checkInSymtab();
        check.checkNotPresent("dead_fn1");
        check.checkInSymtab();
        check.checkNotPresent("dead_fn2");
        test_step.dependOn(&check.step);

        const run = addRunArtifact(exe);
        run.expectStdOutEqual("1 2\n");
        test_step.dependOn(&run.step);
    }

    return test_step;
}

fn testDuplicateDefinitions(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "duplicate-definitions", opts);

    const obj = addObject(b, opts, .{ .name = "a", .zig_source_bytes =
        \\var x: usize = 1;
        \\export fn strong() void { x += 1; }
        \\export fn weak() void { x += 1; }
    });

    const exe = addExecutable(b, opts, .{ .name = "main", .zig_source_bytes =
        \\var x: usize = 1;
        \\export fn strong() void { x += 1; }
        \\comptime { @export(&weakImpl, .{ .name = "weak", .linkage = .weak }); }
        \\fn weakImpl() callconv(.c) void { x += 1; }
        \\extern fn weak() void;
        \\pub fn main() void {
        \\    weak();
        \\    strong();
        \\}
    });
    exe.root_module.addObject(obj);

    expectLinkErrors(exe, test_step, .{ .exact = &.{
        "error: duplicate symbol definition: _strong",
        "note: defined by /?/a.o",
        "note: defined by /?/main_zcu.o",
    } });

    return test_step;
}

fn testDeadStripDylibs(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "dead-strip-dylibs", opts);

    const main_o = addObject(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <objc/runtime.h>
        \\int main() {
        \\  if (objc_getClass("NSObject") == 0) {
        \\    return -1;
        \\  }
        \\  if (objc_getClass("NSApplication") == 0) {
        \\    return -2;
        \\  }
        \\  return 0;
        \\}
    });

    {
        const exe = addExecutable(b, opts, .{ .name = "main1" });
        exe.root_module.addObject(main_o);
        exe.root_module.linkFramework("Cocoa", .{});

        const check = exe.checkObject();
        check.checkInHeaders();
        check.checkExact("cmd LOAD_DYLIB");
        check.checkContains("Cocoa");
        check.checkInHeaders();
        check.checkExact("cmd LOAD_DYLIB");
        check.checkContains("libobjc");
        test_step.dependOn(&check.step);

        const run = addRunArtifact(exe);
        run.expectExitCode(0);
        test_step.dependOn(&run.step);
    }

    {
        const exe = addExecutable(b, opts, .{ .name = "main2" });
        exe.root_module.addObject(main_o);
        exe.root_module.linkFramework("Cocoa", .{});
        exe.dead_strip_dylibs = true;

        const run = addRunArtifact(exe);
        run.expectExitCode(@as(u8, @bitCast(@as(i8, -2))));
        test_step.dependOn(&run.step);
    }

    return test_step;
}

fn testDylib(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "dylib", opts);

    const dylib = addSharedLibrary(b, opts, .{ .name = "a", .c_source_bytes =
        \\#include<stdio.h>
        \\char world[] = "world";
        \\char* hello() {
        \\  return "Hello";
        \\}
    });

    const check = dylib.checkObject();
    check.checkInHeaders();
    check.checkExact("header");
    check.checkNotPresent("PIE");
    test_step.dependOn(&check.step);

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include<stdio.h>
        \\char* hello();
        \\extern char world[];
        \\int main() {
        \\  printf("%s %s", hello(), world);
        \\  return 0;
        \\}
    });
    exe.root_module.linkSystemLibrary("a", .{});
    exe.root_module.addLibraryPath(dylib.getEmittedBinDirectory());
    exe.root_module.addRPath(dylib.getEmittedBinDirectory());

    const run = addRunArtifact(exe);
    run.expectStdOutEqual("Hello world");
    test_step.dependOn(&run.step);

    return test_step;
}

fn testDylibVersionTbd(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "dylib-version-tbd", opts);

    const tbd = tbd: {
        const wf = WriteFile.create(b);
        break :tbd wf.add("liba.tbd",
            \\--- !tapi-tbd
            \\tbd-version:     4
            \\targets:         [ x86_64-macos, arm64-macos ]
            \\uuids:
            \\  - target:          x86_64-macos
            \\    value:           DEADBEEF
            \\  - target:          arm64-macos
            \\    value:           BEEFDEAD
            \\install-name:    '@rpath/liba.dylib'
            \\current-version: 1.2
            \\exports:
            \\  - targets:     [ x86_64-macos, arm64-macos ]
            \\    symbols:     [ _foo ]
        );
    };

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes = "int main() {}" });
    exe.root_module.linkSystemLibrary("a", .{});
    exe.root_module.addLibraryPath(tbd.dirname());

    const check = exe.checkObject();
    check.checkInHeaders();
    check.checkExact("cmd LOAD_DYLIB");
    check.checkExact("name @rpath/liba.dylib");
    check.checkExact("current version 10200");
    test_step.dependOn(&check.step);

    return test_step;
}

fn testEmptyObject(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "empty-object", opts);

    const empty = addObject(b, opts, .{ .name = "empty", .c_source_bytes = "" });

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <stdio.h>
        \\int main() {
        \\  printf("Hello world!");
        \\}
    });
    exe.root_module.addObject(empty);

    const run = addRunArtifact(exe);
    run.expectStdOutEqual("Hello world!");
    test_step.dependOn(&run.step);

    return test_step;
}

fn testEmptyZig(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "empty-zig", opts);

    const exe = addExecutable(b, opts, .{ .name = "empty", .zig_source_bytes = "pub fn main() void {}" });

    const run = addRunArtifact(exe);
    run.expectExitCode(0);
    test_step.dependOn(&run.step);

    return test_step;
}

fn testEntryPoint(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "entry-point", opts);

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include<stdio.h>
        \\int non_main() {
        \\  printf("%d", 42);
        \\  return 0;
        \\}
    });
    exe.entry = .{ .symbol_name = "_non_main" };

    const run = addRunArtifact(exe);
    run.expectStdOutEqual("42");
    test_step.dependOn(&run.step);

    const check = exe.checkObject();
    check.checkInHeaders();
    check.checkExact("segname __TEXT");
    check.checkExtract("vmaddr {vmaddr}");
    check.checkInHeaders();
    check.checkExact("cmd MAIN");
    check.checkExtract("entryoff {entryoff}");
    check.checkInSymtab();
    check.checkExtract("{n_value} (__TEXT,__text) external _non_main");
    check.checkComputeCompare("vmaddr entryoff +", .{ .op = .eq, .value = .{ .variable = "n_value" } });
    test_step.dependOn(&check.step);

    return test_step;
}

fn testEntryPointArchive(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "entry-point-archive", opts);

    const lib = addStaticLibrary(b, opts, .{ .name = "main", .c_source_bytes = "int main() { return 0; }" });

    {
        const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes = "" });
        exe.root_module.linkSystemLibrary("main", .{});
        exe.root_module.addLibraryPath(lib.getEmittedBinDirectory());

        const run = addRunArtifact(exe);
        run.expectExitCode(0);
        test_step.dependOn(&run.step);
    }

    {
        const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes = "" });
        exe.root_module.linkSystemLibrary("main", .{});
        exe.root_module.addLibraryPath(lib.getEmittedBinDirectory());
        exe.link_gc_sections = true;

        const run = addRunArtifact(exe);
        run.expectExitCode(0);
        test_step.dependOn(&run.step);
    }

    return test_step;
}

fn testEntryPointDylib(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "entry-point-dylib", opts);

    const dylib = addSharedLibrary(b, opts, .{ .name = "a" });
    addCSourceBytes(dylib,
        \\extern int my_main();
        \\int bootstrap() {
        \\  return my_main();
        \\}
    , &.{});
    dylib.linker_allow_shlib_undefined = true;

    const exe = addExecutable(b, opts, .{ .name = "main" });
    addCSourceBytes(dylib,
        \\#include<stdio.h>
        \\int my_main() {
        \\  fprintf(stdout, "Hello!\n");
        \\  return 0;
        \\}
    , &.{});
    exe.root_module.linkLibrary(dylib);
    exe.entry = .{ .symbol_name = "_bootstrap" };
    exe.forceUndefinedSymbol("_my_main");

    const check = exe.checkObject();
    check.checkInHeaders();
    check.checkExact("segname __TEXT");
    check.checkExtract("vmaddr {text_vmaddr}");
    check.checkInHeaders();
    check.checkExact("sectname __stubs");
    check.checkExtract("addr {stubs_vmaddr}");
    check.checkInHeaders();
    check.checkExact("sectname __stubs");
    check.checkExtract("size {stubs_vmsize}");
    check.checkInHeaders();
    check.checkExact("cmd MAIN");
    check.checkExtract("entryoff {entryoff}");
    check.checkComputeCompare("text_vmaddr entryoff +", .{
        .op = .gte,
        .value = .{ .variable = "stubs_vmaddr" }, // The entrypoint should be a synthetic stub
    });
    check.checkComputeCompare("text_vmaddr entryoff + stubs_vmaddr -", .{
        .op = .lt,
        .value = .{ .variable = "stubs_vmsize" }, // The entrypoint should be a synthetic stub
    });
    test_step.dependOn(&check.step);

    const run = addRunArtifact(exe);
    run.expectStdOutEqual("Hello!\n");
    test_step.dependOn(&run.step);

    return test_step;
}

fn testHeaderpad(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "headerpad", opts);

    const addExe = struct {
        fn addExe(bb: *Build, o: Options, name: []const u8) *Compile {
            const exe = addExecutable(bb, o, .{
                .name = name,
                .c_source_bytes = "int main() { return 0; }",
            });
            exe.root_module.linkFramework("CoreFoundation", .{});
            exe.root_module.linkFramework("Foundation", .{});
            exe.root_module.linkFramework("Cocoa", .{});
            exe.root_module.linkFramework("CoreGraphics", .{});
            exe.root_module.linkFramework("CoreHaptics", .{});
            exe.root_module.linkFramework("CoreAudio", .{});
            exe.root_module.linkFramework("AVFoundation", .{});
            exe.root_module.linkFramework("CoreImage", .{});
            exe.root_module.linkFramework("CoreLocation", .{});
            exe.root_module.linkFramework("CoreML", .{});
            exe.root_module.linkFramework("CoreVideo", .{});
            exe.root_module.linkFramework("CoreText", .{});
            exe.root_module.linkFramework("CryptoKit", .{});
            exe.root_module.linkFramework("GameKit", .{});
            exe.root_module.linkFramework("SwiftUI", .{});
            exe.root_module.linkFramework("StoreKit", .{});
            exe.root_module.linkFramework("SpriteKit", .{});
            return exe;
        }
    }.addExe;

    {
        const exe = addExe(b, opts, "main1");
        exe.headerpad_max_install_names = true;

        const check = exe.checkObject();
        check.checkInHeaders();
        check.checkExact("sectname __text");
        check.checkExtract("offset {offset}");
        switch (opts.target.result.cpu.arch) {
            .aarch64 => check.checkComputeCompare("offset", .{ .op = .gte, .value = .{ .literal = 0x4000 } }),
            .x86_64 => check.checkComputeCompare("offset", .{ .op = .gte, .value = .{ .literal = 0x1000 } }),
            else => unreachable,
        }
        test_step.dependOn(&check.step);

        const run = addRunArtifact(exe);
        run.expectExitCode(0);
        test_step.dependOn(&run.step);
    }

    {
        const exe = addExe(b, opts, "main2");
        exe.headerpad_size = 0x10000;

        const check = exe.checkObject();
        check.checkInHeaders();
        check.checkExact("sectname __text");
        check.checkExtract("offset {offset}");
        check.checkComputeCompare("offset", .{ .op = .gte, .value = .{ .literal = 0x10000 } });
        test_step.dependOn(&check.step);

        const run = addRunArtifact(exe);
        run.expectExitCode(0);
        test_step.dependOn(&run.step);
    }

    {
        const exe = addExe(b, opts, "main3");
        exe.headerpad_max_install_names = true;
        exe.headerpad_size = 0x10000;

        const check = exe.checkObject();
        check.checkInHeaders();
        check.checkExact("sectname __text");
        check.checkExtract("offset {offset}");
        check.checkComputeCompare("offset", .{ .op = .gte, .value = .{ .literal = 0x10000 } });
        test_step.dependOn(&check.step);

        const run = addRunArtifact(exe);
        run.expectExitCode(0);
        test_step.dependOn(&run.step);
    }

    {
        const exe = addExe(b, opts, "main4");
        exe.headerpad_max_install_names = true;
        exe.headerpad_size = 0x1000;

        const check = exe.checkObject();
        check.checkInHeaders();
        check.checkExact("sectname __text");
        check.checkExtract("offset {offset}");
        switch (opts.target.result.cpu.arch) {
            .aarch64 => check.checkComputeCompare("offset", .{ .op = .gte, .value = .{ .literal = 0x4000 } }),
            .x86_64 => check.checkComputeCompare("offset", .{ .op = .gte, .value = .{ .literal = 0x1000 } }),
            else => unreachable,
        }
        test_step.dependOn(&check.step);

        const run = addRunArtifact(exe);
        run.expectExitCode(0);
        test_step.dependOn(&run.step);
    }

    return test_step;
}

// Adapted from https://github.com/llvm/llvm-project/blob/main/lld/test/MachO/weak-header-flags.s
fn testHeaderWeakFlags(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "header-weak-flags", opts);

    const obj1 = addObject(b, opts, .{ .name = "a", .asm_source_bytes =
        \\.globl _x
        \\.weak_definition _x
        \\_x:
        \\ ret
    });

    const lib = addSharedLibrary(b, opts, .{ .name = "a" });
    lib.root_module.addObject(obj1);

    {
        const exe = addExecutable(b, opts, .{ .name = "main1", .c_source_bytes = "int main() { return 0; }" });
        exe.root_module.addObject(obj1);

        const check = exe.checkObject();
        check.checkInHeaders();
        check.checkExact("header");
        check.checkContains("WEAK_DEFINES");
        check.checkInHeaders();
        check.checkExact("header");
        check.checkContains("BINDS_TO_WEAK");
        check.checkInExports();
        check.checkExtract("[WEAK] {vmaddr} _x");
        test_step.dependOn(&check.step);
    }

    {
        const obj = addObject(b, opts, .{ .name = "b" });

        switch (opts.target.result.cpu.arch) {
            .aarch64 => addAsmSourceBytes(obj,
                \\.globl _main
                \\_main:
                \\  bl _x
                \\  ret
            ),
            .x86_64 => addAsmSourceBytes(obj,
                \\.globl _main
                \\_main:
                \\  callq _x
                \\  ret
            ),
            else => unreachable,
        }

        const exe = addExecutable(b, opts, .{ .name = "main2" });
        exe.root_module.linkLibrary(lib);
        exe.root_module.addObject(obj);

        const check = exe.checkObject();
        check.checkInHeaders();
        check.checkExact("header");
        check.checkNotPresent("WEAK_DEFINES");
        check.checkInHeaders();
        check.checkExact("header");
        check.checkContains("BINDS_TO_WEAK");
        check.checkInExports();
        check.checkNotPresent("[WEAK] {vmaddr} _x");
        test_step.dependOn(&check.step);
    }

    {
        const exe = addExecutable(b, opts, .{ .name = "main3", .asm_source_bytes =
            \\.globl _main, _x
            \\_x:
            \\
            \\_main:
            \\  ret
        });
        exe.root_module.linkLibrary(lib);

        const check = exe.checkObject();
        check.checkInHeaders();
        check.checkExact("header");
        check.checkNotPresent("WEAK_DEFINES");
        check.checkInHeaders();
        check.checkExact("header");
        check.checkNotPresent("BINDS_TO_WEAK");
        test_step.dependOn(&check.step);
    }

    return test_step;
}

fn testHelloC(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "hello-c", opts);

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <stdio.h>
        \\int main() { 
        \\  printf("Hello world!\n");
        \\  return 0;
        \\}
    });

    const run = addRunArtifact(exe);
    run.expectStdOutEqual("Hello world!\n");
    test_step.dependOn(&run.step);

    const check = exe.checkObject();
    check.checkInHeaders();
    check.checkExact("header");
    check.checkContains("PIE");
    test_step.dependOn(&check.step);

    return test_step;
}

fn testHelloZig(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "hello-zig", opts);

    const exe = addExecutable(b, opts, .{ .name = "main", .zig_source_bytes =
        \\const std = @import("std");
        \\pub fn main() void {
        \\    std.fs.File.stdout().writeAll("Hello world!\n") catch @panic("fail");
        \\}
    });

    const run = addRunArtifact(exe);
    run.expectStdOutEqual("Hello world!\n");
    test_step.dependOn(&run.step);

    return test_step;
}

fn testLargeBss(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "large-bss", opts);

    // TODO this test used use a 4GB zerofill section but this actually fails and causes every
    // linker I tried misbehave in different ways. This only happened on arm64. I thought that
    // maybe S_GB_ZEROFILL section is an answer to this but it doesn't seem supported by dyld
    // anymore. When I get some free time I will re-investigate this.
    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes =
        \\char arr[0x1000000];
        \\int main() {
        \\  return arr[2000];
        \\}
    });

    const run = addRunArtifact(exe);
    run.expectExitCode(0);
    test_step.dependOn(&run.step);

    return test_step;
}

fn testLayout(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "layout", opts);

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <stdio.h>
        \\int main() {
        \\  printf("Hello world!");
        \\  return 0;
        \\}
    });

    const check = exe.checkObject();
    check.checkInHeaders();
    check.checkExact("cmd SEGMENT_64");
    check.checkExact("segname __LINKEDIT");
    check.checkExtract("fileoff {fileoff}");
    check.checkExtract("filesz {filesz}");
    check.checkInHeaders();
    check.checkExact("cmd DYLD_INFO_ONLY");
    check.checkExtract("rebaseoff {rebaseoff}");
    check.checkExtract("rebasesize {rebasesize}");
    check.checkExtract("bindoff {bindoff}");
    check.checkExtract("bindsize {bindsize}");
    check.checkExtract("lazybindoff {lazybindoff}");
    check.checkExtract("lazybindsize {lazybindsize}");
    check.checkExtract("exportoff {exportoff}");
    check.checkExtract("exportsize {exportsize}");
    check.checkInHeaders();
    check.checkExact("cmd FUNCTION_STARTS");
    check.checkExtract("dataoff {fstartoff}");
    check.checkExtract("datasize {fstartsize}");
    check.checkInHeaders();
    check.checkExact("cmd DATA_IN_CODE");
    check.checkExtract("dataoff {diceoff}");
    check.checkExtract("datasize {dicesize}");
    check.checkInHeaders();
    check.checkExact("cmd SYMTAB");
    check.checkExtract("symoff {symoff}");
    check.checkExtract("nsyms {symnsyms}");
    check.checkExtract("stroff {stroff}");
    check.checkExtract("strsize {strsize}");
    check.checkInHeaders();
    check.checkExact("cmd DYSYMTAB");
    check.checkExtract("indirectsymoff {dysymoff}");
    check.checkExtract("nindirectsyms {dysymnsyms}");

    switch (opts.target.result.cpu.arch) {
        .aarch64 => {
            check.checkInHeaders();
            check.checkExact("cmd CODE_SIGNATURE");
            check.checkExtract("dataoff {codesigoff}");
            check.checkExtract("datasize {codesigsize}");
        },
        .x86_64 => {},
        else => unreachable,
    }

    // DYLD_INFO_ONLY subsections are in order: rebase < bind < lazy < export,
    // and there are no gaps between them
    check.checkComputeCompare("rebaseoff rebasesize +", .{ .op = .eq, .value = .{ .variable = "bindoff" } });
    check.checkComputeCompare("bindoff bindsize +", .{ .op = .eq, .value = .{ .variable = "lazybindoff" } });
    check.checkComputeCompare("lazybindoff lazybindsize +", .{ .op = .eq, .value = .{ .variable = "exportoff" } });

    // FUNCTION_STARTS directly follows DYLD_INFO_ONLY (no gap)
    check.checkComputeCompare("exportoff exportsize +", .{ .op = .eq, .value = .{ .variable = "fstartoff" } });

    // DATA_IN_CODE directly follows FUNCTION_STARTS (no gap)
    check.checkComputeCompare("fstartoff fstartsize +", .{ .op = .eq, .value = .{ .variable = "diceoff" } });

    // SYMTAB directly follows DATA_IN_CODE (no gap)
    check.checkComputeCompare("diceoff dicesize +", .{ .op = .eq, .value = .{ .variable = "symoff" } });

    // DYSYMTAB directly follows SYMTAB (no gap)
    check.checkComputeCompare("symnsyms 16 symoff * +", .{ .op = .eq, .value = .{ .variable = "dysymoff" } });

    // STRTAB follows DYSYMTAB with possible gap
    check.checkComputeCompare("dysymnsyms 4 dysymoff * +", .{ .op = .lte, .value = .{ .variable = "stroff" } });

    // all LINKEDIT sections apart from CODE_SIGNATURE are 8-bytes aligned
    check.checkComputeCompare("rebaseoff 8 %", .{ .op = .eq, .value = .{ .literal = 0 } });
    check.checkComputeCompare("bindoff 8 %", .{ .op = .eq, .value = .{ .literal = 0 } });
    check.checkComputeCompare("lazybindoff 8 %", .{ .op = .eq, .value = .{ .literal = 0 } });
    check.checkComputeCompare("exportoff 8 %", .{ .op = .eq, .value = .{ .literal = 0 } });
    check.checkComputeCompare("fstartoff 8 %", .{ .op = .eq, .value = .{ .literal = 0 } });
    check.checkComputeCompare("diceoff 8 %", .{ .op = .eq, .value = .{ .literal = 0 } });
    check.checkComputeCompare("symoff 8 %", .{ .op = .eq, .value = .{ .literal = 0 } });
    check.checkComputeCompare("stroff 8 %", .{ .op = .eq, .value = .{ .literal = 0 } });
    check.checkComputeCompare("dysymoff 8 %", .{ .op = .eq, .value = .{ .literal = 0 } });

    switch (opts.target.result.cpu.arch) {
        .aarch64 => {
            // LINKEDIT segment does not extend beyond, or does not include, CODE_SIGNATURE data
            check.checkComputeCompare("fileoff filesz codesigoff codesigsize + - -", .{
                .op = .eq,
                .value = .{ .literal = 0 },
            });

            // CODE_SIGNATURE data offset is 16-bytes aligned
            check.checkComputeCompare("codesigoff 16 %", .{ .op = .eq, .value = .{ .literal = 0 } });
        },
        .x86_64 => {
            // LINKEDIT segment does not extend beyond, or does not include, strtab data
            check.checkComputeCompare("fileoff filesz stroff strsize + - -", .{
                .op = .eq,
                .value = .{ .literal = 0 },
            });
        },
        else => unreachable,
    }

    test_step.dependOn(&check.step);

    const run = addRunArtifact(exe);
    run.expectStdOutEqual("Hello world!");
    test_step.dependOn(&run.step);

    return test_step;
}

fn testLinkDirectlyCppTbd(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "link-directly-cpp-tbd", opts);

    const sdk = std.zig.system.darwin.getSdk(b.allocator, &opts.target.result) orelse
        @panic("macOS SDK is required to run the test");

    const exe = addExecutable(b, opts, .{
        .name = "main",
        .cpp_source_bytes =
        \\#include <new>
        \\#include <cstdio>
        \\int main() {
        \\    int *x = new int;
        \\    *x = 5;
        \\    fprintf(stderr, "x: %d\n", *x);
        \\    delete x;
        \\}
        ,
        .cpp_source_flags = &.{ "-nostdlib++", "-nostdinc++" },
    });
    exe.root_module.addSystemIncludePath(.{ .cwd_relative = b.pathJoin(&.{ sdk, "/usr/include" }) });
    exe.root_module.addIncludePath(.{ .cwd_relative = b.pathJoin(&.{ sdk, "/usr/include/c++/v1" }) });
    exe.root_module.addObjectFile(.{ .cwd_relative = b.pathJoin(&.{ sdk, "/usr/lib/libc++.tbd" }) });

    const check = exe.checkObject();
    check.checkInSymtab();
    check.checkContains("[referenced dynamically] external __mh_execute_header");
    test_step.dependOn(&check.step);

    return test_step;
}

fn testLinkingStaticLib(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "linking-static-lib", opts);

    const obj = addObject(b, opts, .{
        .name = "bobj",
        .zig_source_bytes = "export var bar: i32 = -42;",
        .strip = true, // TODO for self-hosted, we don't really emit any valid DWARF yet since we only export a global
    });

    const lib = addStaticLibrary(b, opts, .{
        .name = "alib",
        .zig_source_bytes =
        \\export fn foo() i32 {
        \\    return 42;
        \\}
        ,
    });
    lib.root_module.addObject(obj);

    const exe = addExecutable(b, opts, .{
        .name = "testlib",
        .zig_source_bytes =
        \\const std = @import("std");
        \\extern fn foo() i32;
        \\extern var bar: i32;
        \\pub fn main() void {
        \\    std.debug.print("{d}\n", .{foo() + bar});
        \\}
        ,
    });
    exe.root_module.linkLibrary(lib);

    const run = addRunArtifact(exe);
    run.expectStdErrEqual("0\n");
    test_step.dependOn(&run.step);

    return test_step;
}

fn testLinksection(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "linksection", opts);

    const obj = addObject(b, opts, .{ .name = "main", .zig_source_bytes =
        \\export var test_global: u32 linksection("__DATA,__TestGlobal") = undefined;
        \\export fn testFn() linksection("__TEXT,__TestFn") callconv(.c) void {
        \\    TestGenericFn("A").f();
        \\}
        \\fn TestGenericFn(comptime suffix: []const u8) type {
        \\    return struct {
        \\        fn f() linksection("__TEXT,__TestGenFn" ++ suffix) void {}
        \\    };
        \\}
    });

    const check = obj.checkObject();
    check.checkInSymtab();
    check.checkContains("(__DATA,__TestGlobal) external _test_global");
    check.checkInSymtab();
    check.checkContains("(__TEXT,__TestFn) external _testFn");

    if (opts.optimize == .Debug) {
        check.checkInSymtab();
        check.checkContains("(__TEXT,__TestGenFnA) _main.TestGenericFn(");
    }

    test_step.dependOn(&check.step);

    return test_step;
}

fn testMergeLiteralsX64(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "merge-literals-x64", opts);

    const a_o = addObject(b, opts, .{ .name = "a", .asm_source_bytes =
        \\.globl _q1
        \\.globl _s1
        \\
        \\.align 4
        \\_q1:
        \\  lea L._q1(%rip), %rax
        \\  mov (%rax), %xmm0
        \\  ret
        \\ 
        \\.section __TEXT,__cstring,cstring_literals
        \\l._s1:
        \\  .asciz "hello"
        \\
        \\.section __TEXT,__literal8,8byte_literals
        \\.align 8
        \\L._q1:
        \\  .double 1.2345
        \\
        \\.section __DATA,__data
        \\.align 8
        \\_s1:
        \\  .quad l._s1
    });

    const b_o = addObject(b, opts, .{ .name = "b", .asm_source_bytes =
        \\.globl _q2
        \\.globl _s2
        \\.globl _s3
        \\
        \\.align 4
        \\_q2:
        \\  lea L._q2(%rip), %rax
        \\  mov (%rax), %xmm0
        \\  ret
        \\ 
        \\.section __TEXT,__cstring,cstring_literals
        \\l._s2:
        \\  .asciz "hello"
        \\l._s3:
        \\  .asciz "world"
        \\
        \\.section __TEXT,__literal8,8byte_literals
        \\.align 8
        \\L._q2:
        \\  .double 1.2345
        \\
        \\.section __DATA,__data
        \\.align 8
        \\_s2:
        \\   .quad l._s2
        \\_s3:
        \\   .quad l._s3
    });

    const main_o = addObject(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <stdio.h>
        \\extern double q1();
        \\extern double q2();
        \\extern const char* s1;
        \\extern const char* s2;
        \\extern const char* s3;
        \\int main() {
        \\  printf("%s, %s, %s, %f, %f", s1, s2, s3, q1(), q2());
        \\  return 0;
        \\}
    });

    const runWithChecks = struct {
        fn runWithChecks(step: *Step, exe: *Compile) void {
            const run = addRunArtifact(exe);
            run.expectStdOutEqual("hello, hello, world, 1.234500, 1.234500");
            step.dependOn(&run.step);

            const check = exe.checkObject();
            check.dumpSection("__TEXT,__const");
            check.checkContains("\x8d\x97n\x12\x83\xc0\xf3?");
            check.dumpSection("__TEXT,__cstring");
            check.checkContains("hello\x00world\x00%s, %s, %s, %f, %f\x00");
            step.dependOn(&check.step);
        }
    }.runWithChecks;

    {
        const exe = addExecutable(b, opts, .{ .name = "main1" });
        exe.root_module.addObject(a_o);
        exe.root_module.addObject(b_o);
        exe.root_module.addObject(main_o);
        runWithChecks(test_step, exe);
    }

    {
        const exe = addExecutable(b, opts, .{ .name = "main2" });
        exe.root_module.addObject(b_o);
        exe.root_module.addObject(a_o);
        exe.root_module.addObject(main_o);
        runWithChecks(test_step, exe);
    }

    {
        const c_o = addObject(b, opts, .{ .name = "c" });
        c_o.root_module.addObject(a_o);
        c_o.root_module.addObject(b_o);
        c_o.root_module.addObject(main_o);

        const exe = addExecutable(b, opts, .{ .name = "main3" });
        exe.root_module.addObject(c_o);
        runWithChecks(test_step, exe);
    }

    return test_step;
}

fn testMergeLiteralsArm64(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "merge-literals-arm64", opts);

    const a_o = addObject(b, opts, .{ .name = "a", .asm_source_bytes =
        \\.globl _q1
        \\.globl _s1
        \\
        \\.align 4
        \\_q1:
        \\  adrp x8, L._q1@PAGE
        \\  ldr d0, [x8, L._q1@PAGEOFF]
        \\  ret
        \\ 
        \\.section __TEXT,__cstring,cstring_literals
        \\l._s1:
        \\  .asciz "hello"
        \\
        \\.section __TEXT,__literal8,8byte_literals
        \\.align 8
        \\L._q1:
        \\  .double 1.2345
        \\
        \\.section __DATA,__data
        \\.align 8
        \\_s1:
        \\  .quad l._s1
    });

    const b_o = addObject(b, opts, .{ .name = "b", .asm_source_bytes =
        \\.globl _q2
        \\.globl _s2
        \\.globl _s3
        \\
        \\.align 4
        \\_q2:
        \\  adrp x8, L._q2@PAGE
        \\  ldr d0, [x8, L._q2@PAGEOFF]
        \\  ret
        \\ 
        \\.section __TEXT,__cstring,cstring_literals
        \\l._s2:
        \\  .asciz "hello"
        \\l._s3:
        \\  .asciz "world"
        \\
        \\.section __TEXT,__literal8,8byte_literals
        \\.align 8
        \\L._q2:
        \\  .double 1.2345
        \\
        \\.section __DATA,__data
        \\.align 8
        \\_s2:
        \\   .quad l._s2
        \\_s3:
        \\   .quad l._s3
    });

    const main_o = addObject(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <stdio.h>
        \\extern double q1();
        \\extern double q2();
        \\extern const char* s1;
        \\extern const char* s2;
        \\extern const char* s3;
        \\int main() {
        \\  printf("%s, %s, %s, %f, %f", s1, s2, s3, q1(), q2());
        \\  return 0;
        \\}
    });

    const runWithChecks = struct {
        fn runWithChecks(step: *Step, exe: *Compile) void {
            const run = addRunArtifact(exe);
            run.expectStdOutEqual("hello, hello, world, 1.234500, 1.234500");
            step.dependOn(&run.step);

            const check = exe.checkObject();
            check.dumpSection("__TEXT,__const");
            check.checkContains("\x8d\x97n\x12\x83\xc0\xf3?");
            check.dumpSection("__TEXT,__cstring");
            check.checkContains("hello\x00world\x00%s, %s, %s, %f, %f\x00");
            step.dependOn(&check.step);
        }
    }.runWithChecks;

    {
        const exe = addExecutable(b, opts, .{ .name = "main1" });
        exe.root_module.addObject(a_o);
        exe.root_module.addObject(b_o);
        exe.root_module.addObject(main_o);
        runWithChecks(test_step, exe);
    }

    {
        const exe = addExecutable(b, opts, .{ .name = "main2" });
        exe.root_module.addObject(b_o);
        exe.root_module.addObject(a_o);
        exe.root_module.addObject(main_o);
        runWithChecks(test_step, exe);
    }

    {
        const c_o = addObject(b, opts, .{ .name = "c" });
        c_o.root_module.addObject(a_o);
        c_o.root_module.addObject(b_o);
        c_o.root_module.addObject(main_o);

        const exe = addExecutable(b, opts, .{ .name = "main3" });
        exe.root_module.addObject(c_o);
        runWithChecks(test_step, exe);
    }

    return test_step;
}

/// This particular test case will generate invalid machine code that will segfault at runtime.
/// However, this is by design as we want to test that the linker does not panic when linking it
/// which is also the case for the system linker and lld - linking succeeds, runtime segfaults.
/// It should also be mentioned that runtime segfault is not due to the linker but faulty input asm.
fn testMergeLiteralsArm642(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "merge-literals-arm64-2", opts);

    const a_o = addObject(b, opts, .{ .name = "a", .asm_source_bytes =
        \\.globl _q1
        \\.globl _s1
        \\
        \\.align 4
        \\_q1:
        \\  adrp x0, L._q1@PAGE
        \\  ldr x0, [x0, L._q1@PAGEOFF]
        \\  ret
        \\ 
        \\.section __TEXT,__cstring,cstring_literals
        \\_s1:
        \\  .asciz "hello"
        \\
        \\.section __TEXT,__literal8,8byte_literals
        \\.align 8
        \\L._q1:
        \\  .double 1.2345
    });

    const b_o = addObject(b, opts, .{ .name = "b", .asm_source_bytes =
        \\.globl _q2
        \\.globl _s2
        \\.globl _s3
        \\
        \\.align 4
        \\_q2:
        \\  adrp x0, L._q2@PAGE
        \\  ldr x0, [x0, L._q2@PAGEOFF]
        \\  ret
        \\ 
        \\.section __TEXT,__cstring,cstring_literals
        \\_s2:
        \\  .asciz "hello"
        \\_s3:
        \\  .asciz "world"
        \\
        \\.section __TEXT,__literal8,8byte_literals
        \\.align 8
        \\L._q2:
        \\  .double 1.2345
    });

    const main_o = addObject(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <stdio.h>
        \\extern double q1();
        \\extern double q2();
        \\extern const char* s1;
        \\extern const char* s2;
        \\extern const char* s3;
        \\int main() {
        \\  printf("%s, %s, %s, %f, %f", s1, s2, s3, q1(), q2());
        \\  return 0;
        \\}
    });

    const exe = addExecutable(b, opts, .{ .name = "main1" });
    exe.root_module.addObject(a_o);
    exe.root_module.addObject(b_o);
    exe.root_module.addObject(main_o);

    const check = exe.checkObject();
    check.dumpSection("__TEXT,__const");
    check.checkContains("\x8d\x97n\x12\x83\xc0\xf3?");
    check.dumpSection("__TEXT,__cstring");
    check.checkContains("hello\x00world\x00%s, %s, %s, %f, %f\x00");
    test_step.dependOn(&check.step);

    return test_step;
}

fn testMergeLiteralsAlignment(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "merge-literals-alignment", opts);

    const a_o = addObject(b, opts, .{ .name = "a", .asm_source_bytes =
        \\.globl _s1
        \\.globl _s2
        \\
        \\.section __TEXT,__cstring,cstring_literals
        \\.align 3
        \\_s1:
        \\  .asciz "str1"
        \\_s2:
        \\  .asciz "str2"
    });

    const b_o = addObject(b, opts, .{ .name = "b", .asm_source_bytes =
        \\.globl _s3
        \\.globl _s4
        \\
        \\.section __TEXT,__cstring,cstring_literals
        \\.align 2
        \\_s3:
        \\  .asciz "str1"
        \\_s4:
        \\  .asciz "str2"
    });

    const main_o = addObject(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <assert.h>
        \\#include <stdint.h>
        \\#include <stdio.h>
        \\extern const char* s1;
        \\extern const char* s2;
        \\extern const char* s3;
        \\extern const char* s4;
        \\int main() {
        \\  assert((uintptr_t)(&s1) % 8 == 0 && s1 == s3);
        \\  assert((uintptr_t)(&s2) % 8 == 0 && s2 == s4);
        \\  printf("%s%s%s%s", &s1, &s2, &s3, &s4);
        \\  return 0;
        \\}
    , .c_source_flags = &.{"-Wno-format"} });

    const runWithChecks = struct {
        fn runWithChecks(step: *Step, exe: *Compile) void {
            const run = addRunArtifact(exe);
            run.expectStdOutEqual("str1str2str1str2");
            step.dependOn(&run.step);

            const check = exe.checkObject();
            check.dumpSection("__TEXT,__cstring");
            check.checkContains("str1\x00\x00\x00\x00str2\x00");
            check.checkInHeaders();
            check.checkExact("segname __TEXT");
            check.checkExact("sectname __cstring");
            check.checkExact("align 3");
            step.dependOn(&check.step);
        }
    }.runWithChecks;

    {
        const exe = addExecutable(b, opts, .{ .name = "main1" });
        exe.root_module.addObject(a_o);
        exe.root_module.addObject(b_o);
        exe.root_module.addObject(main_o);
        runWithChecks(test_step, exe);
    }

    {
        const exe = addExecutable(b, opts, .{ .name = "main2" });
        exe.root_module.addObject(b_o);
        exe.root_module.addObject(a_o);
        exe.root_module.addObject(main_o);
        runWithChecks(test_step, exe);
    }

    return test_step;
}

fn testMergeLiteralsObjc(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "merge-literals-objc", opts);

    const main_o = addObject(b, opts, .{ .name = "main", .objc_source_bytes =
        \\#import <Foundation/Foundation.h>;
        \\
        \\extern void foo();
        \\
        \\int main() {
        \\  NSString *thing = @"aaa";
        \\
        \\  SEL sel = @selector(lowercaseString);
        \\  NSString *lower = (([thing respondsToSelector:sel]) ? @"YES" : @"NO");
        \\  NSLog (@"Responds to lowercaseString: %@", lower);
        \\  if ([thing respondsToSelector:sel]) //(lower == @"YES")
        \\      NSLog(@"lowercaseString is: %@", [thing lowercaseString]);
        \\
        \\  foo();
        \\}
    });

    const a_o = addObject(b, opts, .{ .name = "a", .objc_source_bytes =
        \\#import <Foundation/Foundation.h>;
        \\
        \\void foo() {
        \\  NSString *thing = @"aaa";
        \\  SEL sel = @selector(lowercaseString);
        \\  NSString *lower = (([thing respondsToSelector:sel]) ? @"YES" : @"NO");
        \\  NSLog (@"Responds to lowercaseString in foo(): %@", lower);
        \\  if ([thing respondsToSelector:sel]) //(lower == @"YES")
        \\      NSLog(@"lowercaseString in foo() is: %@", [thing lowercaseString]);
        \\  SEL sel2 = @selector(uppercaseString);
        \\  NSString *upper = (([thing respondsToSelector:sel2]) ? @"YES" : @"NO");
        \\  NSLog (@"Responds to uppercaseString in foo(): %@", upper);
        \\  if ([thing respondsToSelector:sel2]) //(upper == @"YES")
        \\      NSLog(@"uppercaseString in foo() is: %@", [thing uppercaseString]);
        \\}
    });

    const runWithChecks = struct {
        fn runWithChecks(step: *Step, exe: *Compile) void {
            const builder = step.owner;
            const run = addRunArtifact(exe);
            run.addCheck(.{ .expect_stderr_match = builder.dupe("Responds to lowercaseString: YES") });
            run.addCheck(.{ .expect_stderr_match = builder.dupe("lowercaseString is: aaa") });
            run.addCheck(.{ .expect_stderr_match = builder.dupe("Responds to lowercaseString in foo(): YES") });
            run.addCheck(.{ .expect_stderr_match = builder.dupe("lowercaseString in foo() is: aaa") });
            run.addCheck(.{ .expect_stderr_match = builder.dupe("Responds to uppercaseString in foo(): YES") });
            run.addCheck(.{ .expect_stderr_match = builder.dupe("uppercaseString in foo() is: AAA") });
            step.dependOn(&run.step);

            const check = exe.checkObject();
            check.dumpSection("__TEXT,__objc_methname");
            check.checkContains("lowercaseString\x00");
            check.dumpSection("__TEXT,__objc_methname");
            check.checkContains("uppercaseString\x00");
            step.dependOn(&check.step);
        }
    }.runWithChecks;

    {
        const exe = addExecutable(b, opts, .{ .name = "main1" });
        exe.root_module.addObject(main_o);
        exe.root_module.addObject(a_o);
        exe.root_module.linkFramework("Foundation", .{});
        runWithChecks(test_step, exe);
    }

    {
        const exe = addExecutable(b, opts, .{ .name = "main2" });
        exe.root_module.addObject(a_o);
        exe.root_module.addObject(main_o);
        exe.root_module.linkFramework("Foundation", .{});
        runWithChecks(test_step, exe);
    }

    {
        const b_o = addObject(b, opts, .{ .name = "b" });
        b_o.root_module.addObject(a_o);
        b_o.root_module.addObject(main_o);

        const exe = addExecutable(b, opts, .{ .name = "main3" });
        exe.root_module.addObject(b_o);
        exe.root_module.linkFramework("Foundation", .{});
        runWithChecks(test_step, exe);
    }

    return test_step;
}

fn testMhExecuteHeader(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "mh-execute-header", opts);

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes = "int main() { return 0; }" });

    const check = exe.checkObject();
    check.checkInSymtab();
    check.checkContains("[referenced dynamically] external __mh_execute_header");
    test_step.dependOn(&check.step);

    return test_step;
}

fn testNoDeadStrip(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "no-dead-strip", opts);

    const exe = addExecutable(b, opts, .{ .name = "name", .c_source_bytes =
        \\__attribute__((used)) int bogus1 = 0;
        \\int bogus2 = 0;
        \\int foo = 42;
        \\int main() {
        \\  return foo - 42;
        \\}
    });
    exe.link_gc_sections = true;

    const check = exe.checkObject();
    check.checkInSymtab();
    check.checkContains("external _bogus1");
    check.checkInSymtab();
    check.checkNotPresent("external _bogus2");
    test_step.dependOn(&check.step);

    const run = addRunArtifact(exe);
    run.expectExitCode(0);
    test_step.dependOn(&run.step);

    return test_step;
}

fn testNoExportsDylib(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "no-exports-dylib", opts);

    const dylib = addSharedLibrary(b, opts, .{ .name = "a", .c_source_bytes = "static void abc() {}" });

    const check = dylib.checkObject();
    check.checkInSymtab();
    check.checkNotPresent("external _abc");
    test_step.dependOn(&check.step);

    return test_step;
}

fn testNeededFramework(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "needed-framework", opts);

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes = "int main() { return 0; }" });
    exe.root_module.linkFramework("Cocoa", .{ .needed = true });
    exe.dead_strip_dylibs = true;

    const check = exe.checkObject();
    check.checkInHeaders();
    check.checkExact("cmd LOAD_DYLIB");
    check.checkContains("Cocoa");
    test_step.dependOn(&check.step);

    const run = addRunArtifact(exe);
    run.expectExitCode(0);
    test_step.dependOn(&run.step);

    return test_step;
}

fn testNeededLibrary(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "needed-library", opts);

    const dylib = addSharedLibrary(b, opts, .{ .name = "a", .c_source_bytes = "int a = 42;" });

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes = "int main() { return 0; }" });
    exe.root_module.linkSystemLibrary("a", .{ .needed = true });
    exe.root_module.addLibraryPath(dylib.getEmittedBinDirectory());
    exe.root_module.addRPath(dylib.getEmittedBinDirectory());
    exe.dead_strip_dylibs = true;

    const check = exe.checkObject();
    check.checkInHeaders();
    check.checkExact("cmd LOAD_DYLIB");
    check.checkContains("liba.dylib");
    test_step.dependOn(&check.step);

    const run = addRunArtifact(exe);
    run.expectExitCode(0);
    test_step.dependOn(&run.step);

    return test_step;
}

fn testObjc(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "objc", opts);

    const lib = addStaticLibrary(b, opts, .{ .name = "a", .objc_source_bytes =
        \\#import <Foundation/Foundation.h>
        \\@interface Foo : NSObject
        \\@end
        \\@implementation Foo
        \\@end
    });

    {
        const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes = "int main() { return 0; }" });
        exe.root_module.linkSystemLibrary("a", .{});
        exe.root_module.linkFramework("Foundation", .{});
        exe.root_module.addLibraryPath(lib.getEmittedBinDirectory());

        const check = exe.checkObject();
        check.checkInSymtab();
        check.checkNotPresent("_OBJC_");
        test_step.dependOn(&check.step);

        const run = addRunArtifact(exe);
        run.expectExitCode(0);
        test_step.dependOn(&run.step);
    }

    {
        const exe = addExecutable(b, opts, .{ .name = "main2", .c_source_bytes = "int main() { return 0; }" });
        exe.root_module.linkSystemLibrary("a", .{});
        exe.root_module.linkFramework("Foundation", .{});
        exe.root_module.addLibraryPath(lib.getEmittedBinDirectory());
        exe.force_load_objc = true;

        const check = exe.checkObject();
        check.checkInSymtab();
        check.checkContains("_OBJC_");
        test_step.dependOn(&check.step);

        const run = addRunArtifact(exe);
        run.expectExitCode(0);
        test_step.dependOn(&run.step);
    }

    return test_step;
}

fn testObjcpp(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "objcpp", opts);

    const foo_h = foo_h: {
        const wf = WriteFile.create(b);
        break :foo_h wf.add("Foo.h",
            \\#import <Foundation/Foundation.h>
            \\@interface Foo : NSObject
            \\- (NSString *)name;
            \\@end
        );
    };

    const foo_o = addObject(b, opts, .{ .name = "foo", .objcpp_source_bytes =
        \\#import "Foo.h"
        \\@implementation Foo
        \\- (NSString *)name
        \\{
        \\      NSString *str = [[NSString alloc] initWithFormat:@"Zig"];
        \\      return str;
        \\}
        \\@end
    });
    foo_o.root_module.addIncludePath(foo_h.dirname());
    foo_o.root_module.link_libcpp = true;

    const exe = addExecutable(b, opts, .{ .name = "main", .objcpp_source_bytes =
        \\#import "Foo.h"
        \\#import <assert.h>
        \\#include <iostream>
        \\int main(int argc, char *argv[])
        \\{
        \\  @autoreleasepool {
        \\      Foo *foo = [[Foo alloc] init];
        \\      NSString *result = [foo name];
        \\      std::cout << "Hello from C++ and " << [result UTF8String];
        \\      assert([result isEqualToString:@"Zig"]);
        \\      return 0;
        \\  }
        \\}
    });
    exe.root_module.addIncludePath(foo_h.dirname());
    exe.root_module.addObject(foo_o);
    exe.root_module.link_libcpp = true;
    exe.root_module.linkFramework("Foundation", .{});

    const run = addRunArtifact(exe);
    run.expectStdOutEqual("Hello from C++ and Zig");
    test_step.dependOn(&run.step);

    return test_step;
}

fn testPagezeroSize(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "pagezero-size", opts);

    {
        const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes = "int main () { return 0; }" });
        exe.pagezero_size = 0x4000;

        const check = exe.checkObject();
        check.checkInHeaders();
        check.checkExact("LC 0");
        check.checkExact("segname __PAGEZERO");
        check.checkExact("vmaddr 0");
        check.checkExact("vmsize 4000");
        check.checkInHeaders();
        check.checkExact("segname __TEXT");
        check.checkExact("vmaddr 4000");
        test_step.dependOn(&check.step);
    }

    {
        const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes = "int main () { return 0; }" });
        exe.pagezero_size = 0;

        const check = exe.checkObject();
        check.checkInHeaders();
        check.checkExact("LC 0");
        check.checkExact("segname __TEXT");
        check.checkExact("vmaddr 0");
        test_step.dependOn(&check.step);
    }

    return test_step;
}

fn testReexportsZig(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "reexports-zig", opts);

    const lib = addStaticLibrary(b, opts, .{ .name = "a", .zig_source_bytes =
        \\const x: i32 = 42;
        \\export fn foo() i32 {
        \\    return x;
        \\}
        \\comptime {
        \\    @export(&foo, .{ .name = "bar", .linkage = .strong });
        \\}
    });

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes =
        \\extern int foo();
        \\extern int bar();
        \\int main() {
        \\  return bar() - foo();
        \\}
    });
    exe.root_module.linkLibrary(lib);

    const run = addRunArtifact(exe);
    run.expectExitCode(0);
    test_step.dependOn(&run.step);

    return test_step;
}

fn testRelocatable(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "relocatable", opts);

    const a_o = addObject(b, opts, .{ .name = "a", .cpp_source_bytes =
        \\#include <stdexcept>
        \\int try_me() {
        \\  throw std::runtime_error("Oh no!");
        \\}
    });
    a_o.root_module.link_libcpp = true;

    const b_o = addObject(b, opts, .{ .name = "b", .cpp_source_bytes =
        \\extern int try_me();
        \\int try_again() {
        \\  return try_me();
        \\}
    });

    const main_o = addObject(b, opts, .{ .name = "main", .cpp_source_bytes =
        \\#include <iostream>
        \\#include <stdexcept>
        \\extern int try_again();
        \\int main() {
        \\  try {
        \\    try_again();
        \\  } catch (const std::exception &e) {
        \\    std::cout << "exception=" << e.what();
        \\  }
        \\  return 0;
        \\}
    });
    main_o.root_module.link_libcpp = true;

    const exp_stdout = "exception=Oh no!";

    {
        const c_o = addObject(b, opts, .{ .name = "c" });
        c_o.root_module.addObject(a_o);
        c_o.root_module.addObject(b_o);

        const exe = addExecutable(b, opts, .{ .name = "main1" });
        exe.root_module.addObject(main_o);
        exe.root_module.addObject(c_o);
        exe.root_module.link_libcpp = true;

        const run = addRunArtifact(exe);
        run.expectStdOutEqual(exp_stdout);
        test_step.dependOn(&run.step);
    }

    {
        const d_o = addObject(b, opts, .{ .name = "d" });
        d_o.root_module.addObject(a_o);
        d_o.root_module.addObject(b_o);
        d_o.root_module.addObject(main_o);

        const exe = addExecutable(b, opts, .{ .name = "main2" });
        exe.root_module.addObject(d_o);
        exe.root_module.link_libcpp = true;

        const run = addRunArtifact(exe);
        run.expectStdOutEqual(exp_stdout);
        test_step.dependOn(&run.step);
    }

    return test_step;
}

fn testRelocatableZig(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "relocatable-zig", opts);

    const a_o = addObject(b, opts, .{ .name = "a", .zig_source_bytes =
        \\const std = @import("std");
        \\export var foo: i32 = 0;
        \\export fn incrFoo() void {
        \\    foo += 1;
        \\    std.debug.print("incrFoo={d}\n", .{foo});
        \\}
    });

    const b_o = addObject(b, opts, .{ .name = "b", .zig_source_bytes =
        \\const std = @import("std");
        \\extern var foo: i32;
        \\export fn decrFoo() void {
        \\    foo -= 1;
        \\    std.debug.print("decrFoo={d}\n", .{foo});
        \\}
    });

    const main_o = addObject(b, opts, .{ .name = "main", .zig_source_bytes =
        \\const std = @import("std");
        \\extern var foo: i32;
        \\extern fn incrFoo() void;
        \\extern fn decrFoo() void;
        \\pub fn main() void {
        \\    const init = foo;
        \\    incrFoo();
        \\    decrFoo();
        \\    if (init == foo) @panic("Oh no!");
        \\}
    });

    const c_o = addObject(b, opts, .{ .name = "c" });
    c_o.root_module.addObject(a_o);
    c_o.root_module.addObject(b_o);
    c_o.root_module.addObject(main_o);

    const exe = addExecutable(b, opts, .{ .name = "main" });
    exe.root_module.addObject(c_o);

    const run = addRunArtifact(exe);
    run.addCheck(.{ .expect_stderr_match = b.dupe("incrFoo=1") });
    run.addCheck(.{ .expect_stderr_match = b.dupe("decrFoo=0") });
    run.addCheck(.{ .expect_stderr_match = b.dupe("panic: Oh no!") });
    test_step.dependOn(&run.step);

    return test_step;
}

fn testSearchStrategy(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "search-strategy", opts);

    const obj = addObject(b, opts, .{ .name = "a", .c_source_bytes =
        \\#include<stdio.h>
        \\char world[] = "world";
        \\char* hello() {
        \\  return "Hello";
        \\}
    });

    const liba = addStaticLibrary(b, opts, .{ .name = "a" });
    liba.root_module.addObject(obj);

    const dylib = addSharedLibrary(b, opts, .{ .name = "a" });
    dylib.root_module.addObject(obj);

    const main_o = addObject(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include<stdio.h>
        \\char* hello();
        \\extern char world[];
        \\int main() {
        \\  printf("%s %s", hello(), world);
        \\  return 0;
        \\}
    });

    {
        const exe = addExecutable(b, opts, .{ .name = "main" });
        exe.root_module.addObject(main_o);
        exe.root_module.linkSystemLibrary("a", .{ .use_pkg_config = .no, .search_strategy = .mode_first });
        exe.root_module.addLibraryPath(liba.getEmittedBinDirectory());
        exe.root_module.addLibraryPath(dylib.getEmittedBinDirectory());
        exe.root_module.addRPath(dylib.getEmittedBinDirectory());

        const run = addRunArtifact(exe);
        run.expectStdOutEqual("Hello world");
        test_step.dependOn(&run.step);

        const check = exe.checkObject();
        check.checkInHeaders();
        check.checkExact("cmd LOAD_DYLIB");
        check.checkContains("liba.dylib");
        test_step.dependOn(&check.step);
    }

    {
        const exe = addExecutable(b, opts, .{ .name = "main" });
        exe.root_module.addObject(main_o);
        exe.root_module.linkSystemLibrary("a", .{ .use_pkg_config = .no, .search_strategy = .paths_first });
        exe.root_module.addLibraryPath(liba.getEmittedBinDirectory());
        exe.root_module.addLibraryPath(dylib.getEmittedBinDirectory());
        exe.root_module.addRPath(dylib.getEmittedBinDirectory());

        const run = addRunArtifact(exe);
        run.expectStdOutEqual("Hello world");
        test_step.dependOn(&run.step);

        const check = exe.checkObject();
        check.checkInHeaders();
        check.checkExact("cmd LOAD_DYLIB");
        check.checkNotPresent("liba.dylib");
        test_step.dependOn(&check.step);
    }

    return test_step;
}

fn testSectionBoundarySymbols(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "section-boundary-symbols", opts);

    const obj1 = addObject(b, opts, .{
        .name = "obj1",
        .cpp_source_bytes =
        \\constexpr const char* MESSAGE __attribute__((used, section("__DATA_CONST,__message_ptr"))) = "codebase";
        ,
    });

    const main_o = addObject(b, opts, .{
        .name = "main",
        .zig_source_bytes =
        \\const std = @import("std");
        \\extern fn interop() ?[*:0]const u8;
        \\pub fn main() !void {
        \\    std.debug.print("All your {s} are belong to us.\n", .{
        \\        if (interop()) |ptr| std.mem.span(ptr) else "(null)",
        \\    });
        \\}
        ,
    });

    {
        const obj2 = addObject(b, opts, .{
            .name = "obj2",
            .cpp_source_bytes =
            \\extern const char* message_pointer __asm("section$start$__DATA_CONST$__message_ptr");
            \\extern "C" const char* interop() {
            \\  return message_pointer;
            \\}
            ,
        });

        const exe = addExecutable(b, opts, .{ .name = "test" });
        exe.root_module.addObject(obj1);
        exe.root_module.addObject(obj2);
        exe.root_module.addObject(main_o);

        const run = b.addRunArtifact(exe);
        run.skip_foreign_checks = true;
        run.expectStdErrEqual("All your codebase are belong to us.\n");
        test_step.dependOn(&run.step);

        const check = exe.checkObject();
        check.checkInSymtab();
        check.checkNotPresent("external section$start$__DATA_CONST$__message_ptr");
        test_step.dependOn(&check.step);
    }

    {
        const obj3 = addObject(b, opts, .{
            .name = "obj3",
            .cpp_source_bytes =
            \\extern const char* message_pointer __asm("section$start$__DATA_CONST$__not_present");
            \\extern "C" const char* interop() {
            \\  return message_pointer;
            \\}
            ,
        });

        const exe = addExecutable(b, opts, .{ .name = "test" });
        exe.root_module.addObject(obj1);
        exe.root_module.addObject(obj3);
        exe.root_module.addObject(main_o);

        const run = b.addRunArtifact(exe);
        run.skip_foreign_checks = true;
        run.expectStdErrEqual("All your (null) are belong to us.\n");
        test_step.dependOn(&run.step);

        const check = exe.checkObject();
        check.checkInSymtab();
        check.checkNotPresent("external section$start$__DATA_CONST$__not_present");
        test_step.dependOn(&check.step);
    }

    return test_step;
}

fn testSectionBoundarySymbols2(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "section-boundary-symbols-2", opts);

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <stdio.h>
        \\struct pair { int a; int b;  };
        \\struct pair first __attribute__((section("__DATA,__pairs"))) = { 1, 2  };
        \\struct pair second __attribute__((section("__DATA,__pairs"))) = { 3, 4  };
        \\extern struct pair pairs_start __asm("section$start$__DATA$__pairs");
        \\extern struct pair pairs_end __asm("section$end$__DATA$__pairs");
        \\int main() {
        \\  printf("%d,%d\n", first.a, first.b);
        \\  printf("%d,%d\n", second.a, second.b);
        \\  struct pair* p;
        \\  for (p = &pairs_start; p < &pairs_end; p++) {
        \\    p->a = 0;
        \\  }
        \\  printf("%d,%d\n", first.a, first.b);
        \\  printf("%d,%d\n", second.a, second.b);
        \\  return 0;
        \\}
    });

    const run = b.addRunArtifact(exe);
    run.skip_foreign_checks = true;
    run.expectStdOutEqual(
        \\1,2
        \\3,4
        \\0,2
        \\0,4
        \\
    );
    test_step.dependOn(&run.step);

    return test_step;
}

fn testSegmentBoundarySymbols(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "segment-boundary-symbols", opts);

    const obj1 = addObject(b, opts, .{ .name = "a", .cpp_source_bytes =
        \\constexpr const char* MESSAGE __attribute__((used, section("__DATA_CONST_1,__message_ptr"))) = "codebase";
    });

    const main_o = addObject(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <stdio.h>
        \\const char* interop();
        \\int main() {
        \\  printf("All your %s are belong to us.\n", interop());
        \\  return 0;
        \\}
    });

    {
        const obj2 = addObject(b, opts, .{ .name = "b", .cpp_source_bytes =
            \\extern const char* message_pointer __asm("segment$start$__DATA_CONST_1");
            \\extern "C" const char* interop() {
            \\  return message_pointer;
            \\}
        });

        const exe = addExecutable(b, opts, .{ .name = "main" });
        exe.root_module.addObject(obj1);
        exe.root_module.addObject(obj2);
        exe.root_module.addObject(main_o);

        const run = addRunArtifact(exe);
        run.expectStdOutEqual("All your codebase are belong to us.\n");
        test_step.dependOn(&run.step);

        const check = exe.checkObject();
        check.checkInSymtab();
        check.checkNotPresent("external segment$start$__DATA_CONST_1");
        test_step.dependOn(&check.step);
    }

    {
        const obj2 = addObject(b, opts, .{ .name = "c", .cpp_source_bytes =
            \\extern const char* message_pointer __asm("segment$start$__DATA_1");
            \\extern "C" const char* interop() {
            \\  return message_pointer;
            \\}
        });

        const exe = addExecutable(b, opts, .{ .name = "main2" });
        exe.root_module.addObject(obj1);
        exe.root_module.addObject(obj2);
        exe.root_module.addObject(main_o);

        const check = exe.checkObject();
        check.checkInHeaders();
        check.checkExact("cmd SEGMENT_64");
        check.checkExact("segname __DATA_1");
        check.checkExtract("vmsize {vmsize}");
        check.checkExtract("filesz {filesz}");
        check.checkComputeCompare("vmsize", .{ .op = .eq, .value = .{ .literal = 0 } });
        check.checkComputeCompare("filesz", .{ .op = .eq, .value = .{ .literal = 0 } });
        check.checkInSymtab();
        check.checkNotPresent("external segment$start$__DATA_1");
        test_step.dependOn(&check.step);
    }

    return test_step;
}

fn testSymbolStabs(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "symbol-stabs", opts);

    const a_o = addObject(b, opts, .{ .name = "a", .c_source_bytes =
        \\int foo = 42;
        \\int getFoo() {
        \\  return foo;
        \\}
    });

    const b_o = addObject(b, opts, .{ .name = "b", .c_source_bytes =
        \\int bar = 24;
        \\int getBar() {
        \\  return bar;
        \\}
    });

    const main_o = addObject(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <stdio.h>
        \\extern int getFoo();
        \\extern int getBar();
        \\int main() {
        \\  printf("foo=%d,bar=%d", getFoo(), getBar());
        \\  return 0;
        \\}
    });

    const exe = addExecutable(b, opts, .{ .name = "main" });
    exe.root_module.addObject(a_o);
    exe.root_module.addObject(b_o);
    exe.root_module.addObject(main_o);

    const run = addRunArtifact(exe);
    run.expectStdOutEqual("foo=42,bar=24");
    test_step.dependOn(&run.step);

    const check = exe.checkObject();
    check.checkInSymtab();
    check.checkContains("a.o"); // TODO we really should do a fuzzy search like OSO <ignore>/a.o
    check.checkInSymtab();
    check.checkContains("b.o");
    check.checkInSymtab();
    check.checkContains("main.o");
    test_step.dependOn(&check.step);

    return test_step;
}

fn testStackSize(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "stack-size", opts);

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes = "int main() { return 0; }" });
    exe.stack_size = 0x100000000;

    const run = addRunArtifact(exe);
    run.expectExitCode(0);
    test_step.dependOn(&run.step);

    const check = exe.checkObject();
    check.checkInHeaders();
    check.checkExact("cmd MAIN");
    check.checkExact("stacksize 100000000");
    test_step.dependOn(&check.step);

    return test_step;
}

fn testTbdv3(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "tbdv3", opts);

    const dylib = addSharedLibrary(b, opts, .{ .name = "a", .c_source_bytes = "int getFoo() { return 42; }" });

    const tbd = tbd: {
        const wf = WriteFile.create(b);
        break :tbd wf.add("liba.tbd",
            \\--- !tapi-tbd-v3
            \\archs:           [ arm64, x86_64 ]
            \\uuids:           [ 'arm64: DEADBEEF', 'x86_64: BEEFDEAD' ]
            \\platform:        macos
            \\install-name:    @rpath/liba.dylib
            \\current-version: 0
            \\exports:
            \\  - archs:           [ arm64, x86_64 ]
            \\    symbols:         [ _getFoo ]
        );
    };

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <stdio.h>
        \\int getFoo();
        \\int main() {
        \\  return getFoo() - 42;
        \\}
    });
    exe.root_module.linkSystemLibrary("a", .{});
    exe.root_module.addLibraryPath(tbd.dirname());
    exe.root_module.addRPath(dylib.getEmittedBinDirectory());

    const run = addRunArtifact(exe);
    run.expectExitCode(0);
    test_step.dependOn(&run.step);

    return test_step;
}

fn testTentative(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "tentative", opts);

    const exe = addExecutable(b, opts, .{ .name = "main" });
    addCSourceBytes(exe,
        \\int foo;
        \\int bar;
        \\int baz = 42;
    , &.{"-fcommon"});
    addCSourceBytes(exe,
        \\#include<stdio.h>
        \\int foo;
        \\int bar = 5;
        \\int baz;
        \\int main() {
        \\  printf("%d %d %d\n", foo, bar, baz);
        \\}
    , &.{"-fcommon"});

    const run = addRunArtifact(exe);
    run.expectStdOutEqual("0 5 42\n");
    test_step.dependOn(&run.step);

    return test_step;
}

fn testThunks(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "thunks", opts);

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <stdio.h>
        \\void bar() {
        \\  printf("bar");
        \\}
        \\void foo() {
        \\  fprintf(stdout, "foo");
        \\}
        \\int main() {
        \\  foo();
        \\  bar();
        \\  return 0;
        \\}
    });

    const check = exe.checkObject();
    check.checkInSymtab();
    check.checkContains("_printf__thunk");
    check.checkInSymtab();
    check.checkContains("_fprintf__thunk");
    test_step.dependOn(&check.step);

    const run = addRunArtifact(exe);
    run.expectStdOutEqual("foobar");
    test_step.dependOn(&run.step);

    return test_step;
}

fn testTls(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "tls", opts);

    const dylib = addSharedLibrary(b, opts, .{ .name = "a", .c_source_bytes =
        \\_Thread_local int a;
        \\int getA() {
        \\  return a;
        \\}
    });

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include<stdio.h>
        \\extern _Thread_local int a;
        \\extern int getA();
        \\int getA2() {
        \\  return a;
        \\}
        \\int main() {
        \\  a = 2;
        \\  printf("%d %d %d", a, getA(), getA2());
        \\  return 0;
        \\}
    });
    exe.root_module.linkSystemLibrary("a", .{});
    exe.root_module.addLibraryPath(dylib.getEmittedBinDirectory());
    exe.root_module.addRPath(dylib.getEmittedBinDirectory());

    const run = addRunArtifact(exe);
    run.expectStdOutEqual("2 2 2");
    test_step.dependOn(&run.step);

    return test_step;
}

// https://github.com/ziglang/zig/issues/19221
fn testTlsPointers(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "tls-pointers", opts);

    const foo_h = foo_h: {
        const wf = WriteFile.create(b);
        break :foo_h wf.add("foo.h",
            \\template<typename just4fun>
            \\struct Foo {
            \\
            \\public:
            \\  static int getVar() {
            \\  static int thread_local var = 0;
            \\  ++var;
            \\  return var;
            \\}
            \\};
        );
    };

    const bar_o = addObject(b, opts, .{ .name = "bar", .cpp_source_bytes =
        \\#include "foo.h"
        \\int bar() {
        \\  int v1 = Foo<int>::getVar();
        \\  return v1;
        \\}
    });
    bar_o.root_module.addIncludePath(foo_h.dirname());
    bar_o.root_module.link_libcpp = true;

    const baz_o = addObject(b, opts, .{ .name = "baz", .cpp_source_bytes =
        \\#include "foo.h"
        \\int baz() {
        \\  int v1 = Foo<unsigned>::getVar();
        \\  return v1;
        \\}
    });
    baz_o.root_module.addIncludePath(foo_h.dirname());
    baz_o.root_module.link_libcpp = true;

    const main_o = addObject(b, opts, .{ .name = "main", .cpp_source_bytes =
        \\extern int bar();
        \\extern int baz();
        \\int main() {
        \\  int v1 = bar();
        \\  int v2 = baz();
        \\  return v1 != v2;
        \\}
    });
    main_o.root_module.addIncludePath(foo_h.dirname());
    main_o.root_module.link_libcpp = true;

    const exe = addExecutable(b, opts, .{ .name = "main" });
    exe.root_module.addObject(bar_o);
    exe.root_module.addObject(baz_o);
    exe.root_module.addObject(main_o);
    exe.root_module.link_libcpp = true;

    const run = addRunArtifact(exe);
    run.expectExitCode(0);
    test_step.dependOn(&run.step);

    return test_step;
}

fn testTlsLargeTbss(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "tls-large-tbss", opts);

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <stdio.h>
        \\_Thread_local int x[0x8000];
        \\_Thread_local int y[0x8000];
        \\int main() {
        \\  x[0] = 3;
        \\  x[0x7fff] = 5;
        \\  printf("%d %d %d %d %d %d\n", x[0], x[1], x[0x7fff], y[0], y[1], y[0x7fff]);
        \\}
    });

    const run = addRunArtifact(exe);
    run.expectStdOutEqual("3 0 5 0 0 0\n");
    test_step.dependOn(&run.step);

    return test_step;
}

fn testTlsZig(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "tls-zig", opts);

    const exe = addExecutable(b, opts, .{ .name = "main", .zig_source_bytes =
        \\const std = @import("std");
        \\threadlocal var x: i32 = 0;
        \\threadlocal var y: i32 = -1;
        \\pub fn main() void {
        \\    var stdout_writer = std.fs.File.stdout().writerStreaming(&.{});
        \\    stdout_writer.interface.print("{d} {d}\n", .{x, y}) catch unreachable;
        \\    x -= 1;
        \\    y += 1;
        \\    stdout_writer.interface.print("{d} {d}\n", .{x, y}) catch unreachable;
        \\}
    });

    const run = addRunArtifact(exe);
    run.expectStdOutEqual(
        \\0 -1
        \\-1 0
        \\
    );
    test_step.dependOn(&run.step);

    return test_step;
}

fn testTwoLevelNamespace(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "two-level-namespace", opts);

    const liba = addSharedLibrary(b, opts, .{ .name = "a", .c_source_bytes =
        \\#include <stdio.h>
        \\int foo = 1;
        \\int* ptr_to_foo = &foo;
        \\int getFoo() {
        \\  return foo;
        \\}
        \\void printInA() {
        \\  printf("liba: getFoo()=%d, ptr_to_foo=%d\n", getFoo(), *ptr_to_foo);
        \\}
    });

    {
        const check = liba.checkObject();
        check.checkInDyldLazyBind();
        check.checkNotPresent("(flat lookup) _getFoo");
        check.checkInIndirectSymtab();
        check.checkNotPresent("_getFoo");
        test_step.dependOn(&check.step);
    }

    const libb = addSharedLibrary(b, opts, .{ .name = "b", .c_source_bytes =
        \\#include <stdio.h>
        \\int foo = 2;
        \\int* ptr_to_foo = &foo;
        \\int getFoo() {
        \\  return foo;
        \\}
        \\void printInB() {
        \\  printf("libb: getFoo()=%d, ptr_to_foo=%d\n", getFoo(), *ptr_to_foo);
        \\}
    });

    {
        const check = libb.checkObject();
        check.checkInDyldLazyBind();
        check.checkNotPresent("(flat lookup) _getFoo");
        check.checkInIndirectSymtab();
        check.checkNotPresent("_getFoo");
        test_step.dependOn(&check.step);
    }

    const main_o = addObject(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <stdio.h>
        \\int getFoo();
        \\extern int* ptr_to_foo;
        \\void printInA();
        \\void printInB();
        \\int main() {
        \\  printf("main: getFoo()=%d, ptr_to_foo=%d\n", getFoo(), *ptr_to_foo);
        \\  printInA();
        \\  printInB();
        \\  return 0;
        \\}
    });

    {
        const exe = addExecutable(b, opts, .{ .name = "main1" });
        exe.root_module.addObject(main_o);
        exe.root_module.linkSystemLibrary("a", .{});
        exe.root_module.linkSystemLibrary("b", .{});
        exe.root_module.addLibraryPath(liba.getEmittedBinDirectory());
        exe.root_module.addLibraryPath(libb.getEmittedBinDirectory());
        exe.root_module.addRPath(liba.getEmittedBinDirectory());
        exe.root_module.addRPath(libb.getEmittedBinDirectory());

        const check = exe.checkObject();
        check.checkInSymtab();
        check.checkExact("(undefined) external _getFoo (from liba)");
        check.checkInSymtab();
        check.checkExact("(undefined) external _printInA (from liba)");
        check.checkInSymtab();
        check.checkExact("(undefined) external _printInB (from libb)");
        test_step.dependOn(&check.step);

        const run = addRunArtifact(exe);
        run.expectStdOutEqual(
            \\main: getFoo()=1, ptr_to_foo=1
            \\liba: getFoo()=1, ptr_to_foo=1
            \\libb: getFoo()=2, ptr_to_foo=2
            \\
        );
        test_step.dependOn(&run.step);
    }

    {
        const exe = addExecutable(b, opts, .{ .name = "main2" });
        exe.root_module.addObject(main_o);
        exe.root_module.linkSystemLibrary("b", .{});
        exe.root_module.linkSystemLibrary("a", .{});
        exe.root_module.addLibraryPath(liba.getEmittedBinDirectory());
        exe.root_module.addLibraryPath(libb.getEmittedBinDirectory());
        exe.root_module.addRPath(liba.getEmittedBinDirectory());
        exe.root_module.addRPath(libb.getEmittedBinDirectory());

        const check = exe.checkObject();
        check.checkInSymtab();
        check.checkExact("(undefined) external _getFoo (from libb)");
        check.checkInSymtab();
        check.checkExact("(undefined) external _printInA (from liba)");
        check.checkInSymtab();
        check.checkExact("(undefined) external _printInB (from libb)");
        test_step.dependOn(&check.step);

        const run = addRunArtifact(exe);
        run.expectStdOutEqual(
            \\main: getFoo()=2, ptr_to_foo=2
            \\liba: getFoo()=1, ptr_to_foo=1
            \\libb: getFoo()=2, ptr_to_foo=2
            \\
        );
        test_step.dependOn(&run.step);
    }

    return test_step;
}

fn testDiscardLocalSymbols(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "discard-local-symbols", opts);

    const obj = addObject(b, opts, .{ .name = "a", .c_source_bytes = "static int foo = 42;" });

    const lib = addStaticLibrary(b, opts, .{ .name = "a" });
    lib.root_module.addObject(obj);

    const main_o = addObject(b, opts, .{ .name = "main", .c_source_bytes = "int main() { return 0; }" });

    {
        const exe = addExecutable(b, opts, .{ .name = "main3" });
        exe.root_module.addObject(main_o);
        exe.root_module.addObject(obj);
        exe.discard_local_symbols = true;

        const run = addRunArtifact(exe);
        run.expectExitCode(0);
        test_step.dependOn(&run.step);

        const check = exe.checkObject();
        check.checkInSymtab();
        check.checkNotPresent("_foo");
        test_step.dependOn(&check.step);
    }

    {
        const exe = addExecutable(b, opts, .{ .name = "main4" });
        exe.root_module.addObject(main_o);
        exe.root_module.linkLibrary(lib);
        exe.discard_local_symbols = true;

        const run = addRunArtifact(exe);
        run.expectExitCode(0);
        test_step.dependOn(&run.step);

        const check = exe.checkObject();
        check.checkInSymtab();
        check.checkNotPresent("_foo");
        test_step.dependOn(&check.step);
    }

    return test_step;
}

fn testUndefinedFlag(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "undefined-flag", opts);

    const obj = addObject(b, opts, .{ .name = "a", .c_source_bytes = "int foo = 42;" });

    const lib = addStaticLibrary(b, opts, .{ .name = "a" });
    lib.root_module.addObject(obj);

    const main_o = addObject(b, opts, .{ .name = "main", .c_source_bytes = "int main() { return 0; }" });

    {
        const exe = addExecutable(b, opts, .{ .name = "main1" });
        exe.root_module.addObject(main_o);
        exe.root_module.linkLibrary(lib);
        exe.forceUndefinedSymbol("_foo");

        const run = addRunArtifact(exe);
        run.expectExitCode(0);
        test_step.dependOn(&run.step);

        const check = exe.checkObject();
        check.checkInSymtab();
        check.checkContains("_foo");
        test_step.dependOn(&check.step);
    }

    {
        const exe = addExecutable(b, opts, .{ .name = "main2" });
        exe.root_module.addObject(main_o);
        exe.root_module.linkLibrary(lib);
        exe.forceUndefinedSymbol("_foo");
        exe.link_gc_sections = true;

        const run = addRunArtifact(exe);
        run.expectExitCode(0);
        test_step.dependOn(&run.step);

        const check = exe.checkObject();
        check.checkInSymtab();
        check.checkContains("_foo");
        test_step.dependOn(&check.step);
    }

    {
        const exe = addExecutable(b, opts, .{ .name = "main3" });
        exe.root_module.addObject(main_o);
        exe.root_module.addObject(obj);

        const run = addRunArtifact(exe);
        run.expectExitCode(0);
        test_step.dependOn(&run.step);

        const check = exe.checkObject();
        check.checkInSymtab();
        check.checkContains("_foo");
        test_step.dependOn(&check.step);
    }

    {
        const exe = addExecutable(b, opts, .{ .name = "main4" });
        exe.root_module.addObject(main_o);
        exe.root_module.addObject(obj);
        exe.link_gc_sections = true;

        const run = addRunArtifact(exe);
        run.expectExitCode(0);
        test_step.dependOn(&run.step);

        const check = exe.checkObject();
        check.checkInSymtab();
        check.checkNotPresent("_foo");
        test_step.dependOn(&check.step);
    }

    return test_step;
}

fn testUnresolvedError(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "unresolved-error", opts);

    const obj = addObject(b, opts, .{ .name = "a", .zig_source_bytes =
        \\extern fn foo() i32;
        \\export fn bar() i32 { return foo() + 1; }
    });

    const exe = addExecutable(b, opts, .{ .name = "main", .zig_source_bytes =
        \\const std = @import("std");
        \\extern fn foo() i32;
        \\extern fn bar() i32;
        \\pub fn main() void {
        \\    std.debug.print("foo() + bar() = {d}", .{foo() + bar()});
        \\}
    });
    exe.root_module.addObject(obj);

    // TODO order should match across backends if possible
    if (opts.use_llvm) {
        expectLinkErrors(exe, test_step, .{ .exact = &.{
            "error: undefined symbol: _foo",
            "note: referenced by /?/a.o:_bar",
            "note: referenced by /?/main_zcu.o:_main.main",
        } });
    } else {
        expectLinkErrors(exe, test_step, .{ .exact = &.{
            "error: undefined symbol: _foo",
            "note: referenced by /?/main.o:_main.main",
            "note: referenced by /?/a.o:__TEXT$__text_zig",
        } });
    }

    return test_step;
}

fn testUnresolvedError2(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "unresolved-error-2", opts);

    const exe = addExecutable(b, opts, .{ .name = "main", .zig_source_bytes =
        \\pub fn main() !void {
        \\    const msg_send_fn = @extern(
        \\        *const fn () callconv(.c) usize,
        \\        .{ .name = "objc_msgSend$initWithContentRect:styleMask:backing:defer:screen:" },
        \\    );
        \\    _ = @call(
        \\        .auto,
        \\        msg_send_fn,
        \\        .{},
        \\    );
        \\}
    });

    expectLinkErrors(exe, test_step, .{ .exact = &.{
        "error: undefined symbol: _objc_msgSend",
        "note: referenced implicitly",
    } });

    return test_step;
}

fn testUnwindInfo(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "unwind-info", opts);

    const all_h = all_h: {
        const wf = WriteFile.create(b);
        break :all_h wf.add("all.h",
            \\#ifndef ALL
            \\#define ALL
            \\
            \\#include <cstddef>
            \\#include <string>
            \\#include <stdexcept>
            \\
            \\struct SimpleString {
            \\  SimpleString(size_t max_size);
            \\  ~SimpleString();
            \\
            \\  void print(const char* tag) const;
            \\  bool append_line(const char* x);
            \\
            \\private:
            \\  size_t max_size;
            \\  char* buffer;
            \\  size_t length;
            \\};
            \\
            \\struct SimpleStringOwner {
            \\  SimpleStringOwner(const char* x);
            \\  ~SimpleStringOwner();
            \\
            \\private:
            \\  SimpleString string;
            \\};
            \\
            \\class Error: public std::exception {
            \\public:
            \\  explicit Error(const char* msg) : msg{ msg } {}
            \\  virtual ~Error() noexcept {}
            \\  virtual const char* what() const noexcept {
            \\    return msg.c_str();
            \\  }
            \\
            \\protected:
            \\  std::string msg;
            \\};
            \\
            \\#endif
        );
    };

    const main_o = addObject(b, opts, .{ .name = "main", .cpp_source_bytes =
        \\#include "all.h"
        \\#include <cstdio>
        \\
        \\void fn_c() {
        \\  SimpleStringOwner c{ "cccccccccc" };
        \\}
        \\
        \\void fn_b() {
        \\  SimpleStringOwner b{ "b" };
        \\  fn_c();
        \\}
        \\
        \\int main() {
        \\  try {
        \\    SimpleStringOwner a{ "a" };
        \\    fn_b();
        \\    SimpleStringOwner d{ "d" };
        \\  } catch (const Error& e) {
        \\    printf("Error: %s\n", e.what());
        \\  } catch(const std::exception& e) {
        \\    printf("Exception: %s\n", e.what());
        \\  }
        \\  return 0;
        \\}
    });
    main_o.root_module.addIncludePath(all_h.dirname());
    main_o.root_module.link_libcpp = true;

    const simple_string_o = addObject(b, opts, .{ .name = "simple_string", .cpp_source_bytes =
        \\#include "all.h"
        \\#include <cstdio>
        \\#include <cstring>
        \\
        \\SimpleString::SimpleString(size_t max_size)
        \\: max_size{ max_size }, length{} {
        \\  if (max_size == 0) {
        \\    throw Error{ "Max size must be at least 1." };
        \\  }
        \\  buffer = new char[max_size];
        \\  buffer[0] = 0;
        \\}
        \\
        \\SimpleString::~SimpleString() {
        \\  delete[] buffer;
        \\}
        \\
        \\void SimpleString::print(const char* tag) const {
        \\  printf("%s: %s", tag, buffer);
        \\}
        \\
        \\bool SimpleString::append_line(const char* x) {
        \\  const auto x_len = strlen(x);
        \\  if (x_len + length + 2 > max_size) return false;
        \\  std::strncpy(buffer + length, x, max_size - length);
        \\  length += x_len;
        \\  buffer[length++] = '\n';
        \\  buffer[length] = 0;
        \\  return true;
        \\}
    });
    simple_string_o.root_module.addIncludePath(all_h.dirname());
    simple_string_o.root_module.link_libcpp = true;

    const simple_string_owner_o = addObject(b, opts, .{ .name = "simple_string_owner", .cpp_source_bytes =
        \\#include "all.h"
        \\
        \\SimpleStringOwner::SimpleStringOwner(const char* x) : string{ 10 } {
        \\  if (!string.append_line(x)) {
        \\    throw Error{ "Not enough memory!" };
        \\  }
        \\  string.print("Constructed");
        \\}
        \\
        \\SimpleStringOwner::~SimpleStringOwner() {
        \\  string.print("About to destroy");
        \\}
    });
    simple_string_owner_o.root_module.addIncludePath(all_h.dirname());
    simple_string_owner_o.root_module.link_libcpp = true;

    const exp_stdout =
        \\Constructed: a
        \\Constructed: b
        \\About to destroy: b
        \\About to destroy: a
        \\Error: Not enough memory!
        \\
    ;

    const exe = addExecutable(b, opts, .{ .name = "main" });
    exe.root_module.addObject(main_o);
    exe.root_module.addObject(simple_string_o);
    exe.root_module.addObject(simple_string_owner_o);
    exe.root_module.link_libcpp = true;

    const run = addRunArtifact(exe);
    run.expectStdOutEqual(exp_stdout);
    test_step.dependOn(&run.step);

    const check = exe.checkObject();
    check.checkInSymtab();
    check.checkContains("(was private external) ___gxx_personality_v0");
    test_step.dependOn(&check.step);

    return test_step;
}

fn testUnwindInfoNoSubsectionsArm64(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "unwind-info-no-subsections-arm64", opts);

    const a_o = addObject(b, opts, .{ .name = "a", .asm_source_bytes =
        \\.globl _foo
        \\.align 4
        \\_foo:
        \\  .cfi_startproc
        \\  stp     x29, x30, [sp, #-32]!
        \\  .cfi_def_cfa_offset 32
        \\  .cfi_offset w30, -24
        \\  .cfi_offset w29, -32
        \\  mov x29, sp
        \\  .cfi_def_cfa w29, 32
        \\  bl      _bar
        \\  ldp     x29, x30, [sp], #32
        \\  .cfi_restore w29
        \\  .cfi_restore w30
        \\  .cfi_def_cfa_offset 0
        \\  ret
        \\  .cfi_endproc
        \\
        \\.globl _bar
        \\.align 4
        \\_bar:
        \\  .cfi_startproc
        \\  sub     sp, sp, #32
        \\  .cfi_def_cfa_offset -32
        \\  stp     x29, x30, [sp, #16]
        \\  .cfi_offset w30, -24
        \\  .cfi_offset w29, -32
        \\  mov x29, sp
        \\  .cfi_def_cfa w29, 32
        \\  mov     w0, #4
        \\  ldp     x29, x30, [sp, #16]
        \\  .cfi_restore w29
        \\  .cfi_restore w30
        \\  add     sp, sp, #32
        \\  .cfi_def_cfa_offset 0
        \\  ret
        \\  .cfi_endproc
    });

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <stdio.h>
        \\int foo();
        \\int main() {
        \\  printf("%d\n", foo());
        \\  return 0;
        \\}
    });
    exe.root_module.addObject(a_o);

    const run = addRunArtifact(exe);
    run.expectStdOutEqual("4\n");
    test_step.dependOn(&run.step);

    return test_step;
}

fn testUnwindInfoNoSubsectionsX64(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "unwind-info-no-subsections-x64", opts);

    const a_o = addObject(b, opts, .{ .name = "a", .asm_source_bytes =
        \\.globl _foo
        \\_foo:
        \\  .cfi_startproc
        \\  push    %rbp
        \\  .cfi_def_cfa_offset 8
        \\  .cfi_offset %rbp, -8
        \\  mov     %rsp, %rbp
        \\  .cfi_def_cfa_register %rbp
        \\  call    _bar
        \\  pop     %rbp
        \\  .cfi_restore %rbp
        \\  .cfi_def_cfa_offset 0
        \\  ret
        \\  .cfi_endproc
        \\
        \\.globl _bar
        \\_bar:
        \\  .cfi_startproc
        \\  push     %rbp
        \\  .cfi_def_cfa_offset 8
        \\  .cfi_offset %rbp, -8
        \\  mov     %rsp, %rbp
        \\  .cfi_def_cfa_register %rbp
        \\  mov     $4, %rax
        \\  pop     %rbp
        \\  .cfi_restore %rbp
        \\  .cfi_def_cfa_offset 0
        \\  ret
        \\  .cfi_endproc
    });

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <stdio.h>
        \\int foo();
        \\int main() {
        \\  printf("%d\n", foo());
        \\  return 0;
        \\}
    });
    exe.root_module.addObject(a_o);

    const run = addRunArtifact(exe);
    run.expectStdOutEqual("4\n");
    test_step.dependOn(&run.step);

    return test_step;
}

// Adapted from https://github.com/llvm/llvm-project/blob/main/lld/test/MachO/weak-binding.s
fn testWeakBind(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "weak-bind", opts);

    const lib = addSharedLibrary(b, opts, .{ .name = "foo", .asm_source_bytes =
        \\.globl _weak_dysym
        \\.weak_definition _weak_dysym
        \\_weak_dysym:
        \\  .quad 0x1234
        \\
        \\.globl _weak_dysym_for_gotpcrel
        \\.weak_definition _weak_dysym_for_gotpcrel
        \\_weak_dysym_for_gotpcrel:
        \\  .quad 0x1234
        \\
        \\.globl _weak_dysym_fn
        \\.weak_definition _weak_dysym_fn
        \\_weak_dysym_fn:
        \\  ret
        \\
        \\.section __DATA,__thread_vars,thread_local_variables
        \\
        \\.globl _weak_dysym_tlv
        \\.weak_definition _weak_dysym_tlv
        \\_weak_dysym_tlv:
        \\  .quad 0x1234
    });

    {
        const check = lib.checkObject();
        check.checkInExports();
        check.checkExtract("[WEAK] {vmaddr1} _weak_dysym");
        check.checkExtract("[WEAK] {vmaddr2} _weak_dysym_for_gotpcrel");
        check.checkExtract("[WEAK] {vmaddr3} _weak_dysym_fn");
        check.checkExtract("[THREAD_LOCAL, WEAK] {vmaddr4} _weak_dysym_tlv");
        test_step.dependOn(&check.step);
    }

    const exe = addExecutable(b, opts, .{ .name = "main", .asm_source_bytes =
        \\.globl _main, _weak_external, _weak_external_for_gotpcrel, _weak_external_fn
        \\.weak_definition _weak_external, _weak_external_for_gotpcrel, _weak_external_fn, _weak_internal, _weak_internal_for_gotpcrel, _weak_internal_fn
        \\
        \\_main:
        \\  mov _weak_dysym_for_gotpcrel@GOTPCREL(%rip), %rax
        \\  mov _weak_external_for_gotpcrel@GOTPCREL(%rip), %rax
        \\  mov _weak_internal_for_gotpcrel@GOTPCREL(%rip), %rax
        \\  mov _weak_tlv@TLVP(%rip), %rax
        \\  mov _weak_dysym_tlv@TLVP(%rip), %rax
        \\  mov _weak_internal_tlv@TLVP(%rip), %rax
        \\  callq _weak_dysym_fn
        \\  callq _weak_external_fn
        \\  callq _weak_internal_fn
        \\  mov $0, %rax
        \\  ret
        \\
        \\_weak_external:
        \\  .quad 0x1234
        \\
        \\_weak_external_for_gotpcrel:
        \\  .quad 0x1234
        \\
        \\_weak_external_fn:
        \\  ret
        \\
        \\_weak_internal:
        \\  .quad 0x1234
        \\
        \\_weak_internal_for_gotpcrel:
        \\  .quad 0x1234
        \\
        \\_weak_internal_fn:
        \\  ret
        \\
        \\.data
        \\  .quad _weak_dysym
        \\  .quad _weak_external + 2
        \\  .quad _weak_internal
        \\
        \\.tbss _weak_tlv$tlv$init, 4, 2
        \\.tbss _weak_internal_tlv$tlv$init, 4, 2
        \\
        \\.section __DATA,__thread_vars,thread_local_variables
        \\.globl _weak_tlv
        \\.weak_definition  _weak_tlv, _weak_internal_tlv
        \\
        \\_weak_tlv:
        \\  .quad __tlv_bootstrap
        \\  .quad 0
        \\  .quad _weak_tlv$tlv$init
        \\
        \\_weak_internal_tlv:
        \\  .quad __tlv_bootstrap
        \\  .quad 0
        \\  .quad _weak_internal_tlv$tlv$init
    });
    exe.root_module.linkLibrary(lib);

    {
        const check = exe.checkObject();

        check.checkInExports();
        check.checkExtract("[WEAK] {vmaddr1} _weak_external");
        check.checkExtract("[WEAK] {vmaddr2} _weak_external_for_gotpcrel");
        check.checkExtract("[WEAK] {vmaddr3} _weak_external_fn");
        check.checkExtract("[THREAD_LOCAL, WEAK] {vmaddr4} _weak_tlv");

        check.checkInDyldBind();
        check.checkContains("(libfoo.dylib) _weak_dysym_for_gotpcrel");
        check.checkContains("(libfoo.dylib) _weak_dysym_fn");
        check.checkContains("(libfoo.dylib) _weak_dysym");
        check.checkContains("(libfoo.dylib) _weak_dysym_tlv");

        check.checkInDyldWeakBind();
        check.checkContains("_weak_external_for_gotpcrel");
        check.checkContains("_weak_dysym_for_gotpcrel");
        check.checkContains("_weak_external_fn");
        check.checkContains("_weak_dysym_fn");
        check.checkContains("_weak_dysym");
        check.checkContains("_weak_external");
        check.checkContains("_weak_tlv");
        check.checkContains("_weak_dysym_tlv");

        test_step.dependOn(&check.step);
    }

    const run = addRunArtifact(exe);
    run.expectExitCode(0);
    test_step.dependOn(&run.step);

    return test_step;
}

fn testWeakFramework(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "weak-framework", opts);

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes = "int main() { return 0; }" });
    exe.root_module.linkFramework("Cocoa", .{ .weak = true });

    const run = addRunArtifact(exe);
    run.expectExitCode(0);
    test_step.dependOn(&run.step);

    const check = exe.checkObject();
    check.checkInHeaders();
    check.checkExact("cmd LOAD_WEAK_DYLIB");
    check.checkContains("Cocoa");
    test_step.dependOn(&check.step);

    return test_step;
}

fn testWeakLibrary(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "weak-library", opts);

    const dylib = addSharedLibrary(b, opts, .{ .name = "a", .c_source_bytes =
        \\#include<stdio.h>
        \\int a = 42;
        \\const char* asStr() {
        \\  static char str[3];
        \\  sprintf(str, "%d", 42);
        \\  return str;
        \\}
    });

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include<stdio.h>
        \\extern int a;
        \\extern const char* asStr();
        \\int main() {
        \\  printf("%d %s", a, asStr());
        \\  return 0;
        \\}
    });
    exe.root_module.linkSystemLibrary("a", .{ .weak = true });
    exe.root_module.addLibraryPath(dylib.getEmittedBinDirectory());
    exe.root_module.addRPath(dylib.getEmittedBinDirectory());

    const check = exe.checkObject();
    check.checkInHeaders();
    check.checkExact("cmd LOAD_WEAK_DYLIB");
    check.checkContains("liba.dylib");
    check.checkInSymtab();
    check.checkExact("(undefined) weakref external _a (from liba)");
    check.checkInSymtab();
    check.checkExact("(undefined) weakref external _asStr (from liba)");
    test_step.dependOn(&check.step);

    const run = addRunArtifact(exe);
    run.expectStdOutEqual("42 42");
    test_step.dependOn(&run.step);

    return test_step;
}

fn testWeakRef(b: *Build, opts: Options) *Step {
    const test_step = addTestStep(b, "weak-ref", opts);

    const exe = addExecutable(b, opts, .{ .name = "main", .c_source_bytes =
        \\#include <stdio.h>
        \\#include <sys/_types/_fd_def.h>
        \\int main(int argc, char** argv) {
        \\    printf("__darwin_check_fd_set_overflow: %p\n", __darwin_check_fd_set_overflow);
        \\}
    });

    const check = exe.checkObject();
    check.checkInSymtab();
    check.checkExact("(undefined) weakref external ___darwin_check_fd_set_overflow (from libSystem.B)");
    test_step.dependOn(&check.step);

    return test_step;
}

fn addTestStep(b: *Build, comptime prefix: []const u8, opts: Options) *Step {
    return link.addTestStep(b, "" ++ prefix, opts);
}

const builtin = @import("builtin");
const addAsmSourceBytes = link.addAsmSourceBytes;
const addCSourceBytes = link.addCSourceBytes;
const addRunArtifact = link.addRunArtifact;
const addObject = link.addObject;
const addExecutable = link.addExecutable;
const addStaticLibrary = link.addStaticLibrary;
const addSharedLibrary = link.addSharedLibrary;
const expectLinkErrors = link.expectLinkErrors;
const link = @import("link.zig");
const std = @import("std");

const Build = std.Build;
const BuildOptions = link.BuildOptions;
const Compile = Step.Compile;
const Options = link.Options;
const Step = Build.Step;
const WriteFile = Step.WriteFile;
